syllabus of b. sc. engineering in electrical & electronic engineering … · 2019-04-03 · eee...
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EEE Syllabus | 2019 1
Syllabus of B Sc Engineering in Electrical amp Electronic Engineering (EEE)
Department of Electrical amp Electronic Engineering
Daffodil International University
To obtain the Bachelor of Science (B Sc) in Electrical and Electronic Engineering degree students will
have to complete 143 credits with a minimum CGPA of 250 If a student fails in any course heshe will
get opportunity to improve hisher grade by retaking the failed course in the subsequent semesters For a
full-time student total duration of the program is four years or twelve equal semesters where every year (or
level) is comprised of three semesters (or terms) Besides students have also provision to enroll as part-
time students with less number of courses and duration
The students willing to obtain a degree of Bachelor of Science in Electrical and Electronic Engineering will
have to follow the general guidelines of degree requirements of the department The courses under the
program are categorized in eight groups as shown below
Group 1 Core Courses (EEE) 72 Credits
Group 2 Technical Elective Courses 17 Credits
Group 3 Language 05 Credits
Group 4 General Education 15 Credits
Group 5 Basic Science 08 Credits
Group 6 Mathematics 19 Credits
Group 7 Other Engineering 07 Credits
Total 143 Credits
Distribution of Credits
The total 143 credits are distributed among four years or levels based on the semesters or terms as depicted
in the Table below
YearLevel Term 1 Term 2 Term 3 Total
1 13 11 12 36
2 12 13 13 38
3 13 13 12 38
4 13 13 5 31
Total 143
EEE Syllabus | 2019 2
List of Courses
The list of courses in the curriculum of BSc in Electrical and Electronic Engineering (EEE) program is
illustrated below
Language (5 Credit)
Course Code Course Title Credit
HUM 111 Functional Bengali Language 2
HUM 221 Professional English 3
General Education Development (15 Credit)
Course Code Course Title Credit
BDS 101 Bangladesh Studies 2
AOL 101 Art of Living 2
EMP 101 Employability 360o 2
ACC 121 Financial and Managerial Accounting 2
HUM 211 Sociology 2
HUM 321 Engineering Ethics and Environmental Protection 2
ECO 411 Energy Economics 3
HUM 413 Technology Entrepreneurship 2
IPE 411 Industrial and Operational Management 2
Basic Science (8 Credit)
Course Code Course Title Credit
PHY 111 Physics 3
PHY 112 Physics Laboratory 1
CHE 101 Chemistry 3
CHE 112 Chemistry Laboratory 1
Mathematics (19 Credit)
Course Code Course Title Credit
MAT 111 Differential and Integral Calculus 3
MAT 121 Complex variable and Vector analysis 3
MAT 131 Ordinary and Partial Differential Equation 3
MAT 133 Probability and Statistics 3
MAT 211 Linear Algebra and Co-ordinate Geometry 3
MAT 221 Continuous Signals and Linear Systems 3
MAT 318 Numerical Analysis Laboratory 1
EEE Syllabus | 2019 3
Other Engineering (7 Credit)
Course Code Course Title Credit
CE 122 Engineering Drawing 1
CSE 131 Computer Programming and Application 3
ME 231 Basic Mechanical Engineering 3
Core Courses (72 Credit)
Course Code Course Title Credit
EEE 121 Fundamental of Electrical Circuits 3
EEE 131 Electrical Circuit I 3
EEE 211 Electrical Circuit II 3
EEE 212 Electrical Circuit Laboratory 1
EEE 215 Electronics I 3
EEE 214 Circuit Simulation Laboratory 1
EEE 221 Electronics II 3
EEE 222 Electronics Laboratory 1
EEE 223 Energy Conversion I 3
EEE 233 Energy Conversion II 3
EEE 234 Energy Conversion Laboratory 1
EEE 235 Electromagnetic Fields and Waves 3
EEE 237 Electrical Properties of Materials 3
EEE 311 Digital Electronics 3
EEE 312 Digital Electronics Laboratory 1
EEE 313 Transmission and Distribution of Electric Power 3
EEE 315 Communication Engineering I 3
EEE 316 Communication Engineering Laboratory 1
EEE 321 Digital Signal Processing 3
EEE 322 Digital Signal Processing Laboratory 1
EEE 323 Control Systems 3
EEE 324 Control Systems Laboratory 1
EEE 325 Power System analysis 3
EEE 331 Microprocessor and Interfacing 3
EEE 332 Microprocessor and Interfacing Laboratory 1
EEE 335 Power Electronics 3
EEE 336 Power Electronics Laboratory 1
EEE 337 Measurement and Instrumentation 3
EEE 338 Measurement and Instrumentation Laboratory 1
EEE 414 Electrical Appliances and Services Design Laboratory 1
EEE 402 Industrial Training Internship 1
EEE 400 Capstone Project 5
EEE Syllabus | 2019 4
Technical Electives
Students will take at least two theories and one laboratory courses from herhis major area and three theories
and one laboratory courses from other areas
POWER
ELECTIVE I
Course Code Course Title Credit
EEE 449 Power Plant Engineering 3
EEE 465 Special Machines 3
EEE 481 Power System Operation and Control 3
EEE 487 Smart Grid System 3
EEE 489 Nuclear Power Engineering 3
EEE 497 Power System Reliability 3
ELECTIVE II
Course Code Course Title Credit
EEE 457 Power System Protection 3
EEE 458 Power System Protection Laboratory 1
EEE 471 High Voltage Engineering 3
EEE 472 High Voltage Engineering Laboratory 1
EEE 479 Renewable Energy 3
EEE 480 Renewable Energy Laboratory 1
ELECTRONICS
ELECTIVE I
Course Code Course Title Credit
EEE 451 Solid State Devices 3
EEE 455 Compound Semiconductor Devices 3
EEE 459 Optoelectronic Devices 3
EEE 495 Nano-electronics and Nano Technology 3
EEE 499 Semiconductor and Nano Device 3
ELECTIVE II
Course Code Course Title Credit
EEE 441 VLSI Circuits 3
EEE 442 VLSI Circuits Laboratory 1
EEE 473 VHDL in Logic Synthesis 3
EEE 474 VHDL in Logic Synthesis Laboratory 1
EEE 491 Biomedical Electronics 3
EEE 492 Biomedical Electronics Laboratory 1
EEE Syllabus | 2019 5
COMMUNICATION
ELECTIVE I
Course Code Course Title Credit
EEE 443 Random Signal processing 3
EEE 445 Satellite Communication 3
EEE 453 Telecommunication Engineering 3
EEE 467 Mobile Cellular Communication 3
EEE 475 Communication Engineering II 3
EEE 493 Digital Filter Design 3
ELECTIVE II
Course Code Course Title Credit
EEE 461 Optical Fiber Communication 3
EEE 462 Optical Fiber Communication Laboratory 1
EEE 483 Microwave Engineering 3
EEE 484 Microwave Engineering Laboratory 1
COMPUTER
ELECTIVE I
Course Code Course Title Credit
EEE 447 Computer Architecture 3
EEE 469 Real Time Computer System 3
EEE 477 Multimedia Communications 3
EEE 485 Data Communication and Computer Networks 3
ELECTIVE II
Course Code Course Title Credit
EEE 463 Microprocessor System Design 3
EEE 464 Microprocessor System Design Laboratory 1
ROBOTICS AND EMBEDDED SYSTEM
ELECTIVE I
Course Code Course Title Credit
EEE 433 Introduction to Robotics 3
EEE 435 Industrial Automation and Robotics 3
ELECTIVE II
Course Code Course Title Credit
EEE 437 Introduction to Embedded System Design 3
EEE 438 Embedded System Design Laboratory 1
Suggested Course Offering
EEE Syllabus | 2019 6
The Department of Electrical and Electronic Engineering of Daffodil International University runs three
terms per year or level The suggested course offering based on the Level and Term for the program of
BSc in Electrical and Electronic Engineering (EEE) is illustrated below
Level 1 Term 1
Course Code Course Title Credit
HUM 111 Functional Bengali Language 2
MAT 111 Differential and Integral Calculus 3
PHY 111 Physics 3
PHY 112 Physics Laboratory 1
CHE 101 Chemistry 3
CHE 112 Chemistry Laboratory 1
Total 13
Level 1 Term 2
Course Code Course Title Credit
EEE 121 Fundamental of Electrical Circuits 3
MAT 121 Complex variable and Vector analysis 3
ACC 121 Financial and Managerial Accounting 2
BDS 101 Bangladesh Studies 2
CE 122 Engineering Drawing 1
Total 11
Level 1 Term 3
Course Code Course Title Credit
MAT 131 Ordinary and Partial Differential Equation 3
MAT 133 Probability and Statistics 3
EEE 131 Electrical Circuit I 3
CSE 131 Computer Programming and Application 3
Total 12
Level 2 Term 1
Course Code Course Title Credit
MAT 211 Linear Algebra and Co-ordinate Geometry 3
AOL 101 Art of Living 2
EEE Syllabus | 2019 7
HUM 211 Sociology
EEE 211 Electrical Circuit II 3
EEE 212 Electrical Circuit Laboratory 1
EEE 214 Circuit Simulation Laboratory 1
EEE 215 Electronics I 3
Total 13
Level 2 Term 2
Course Code Course Title Credit
EEE 221 Electronics II 3
EEE 222 Electronics Laboratory 1
EEE 223 Energy Conversion I 3
MAT 221 Continuous Signals and Linear Systems 3
HUM 221 Professional English 3
Total 13
Level 2 Term 3
Course Code Course Title Credit
EEE 233 Energy Conversion II 3
EEE 234 Energy Conversion Laboratory 1
EEE 235 Electromagnetic Fields and Waves 3
EEE 237 Electrical Properties of Materials 3
ME 231 Basic Mechanical Engineering 3
Total 13
Level 3 Term 1
Course Code Course Title Credit
EEE 311 Digital Electronics 3
EEE 312 Digital Electronics Laboratory 1
EEE 313 Transmission and Distribution of Electric Power 3
EEE 315 Communication Engineering I 3
EEE 316 Communication Engineering Laboratory 1
MAT 318 Numerical Analysis Laboratory 1
Total 12
Level 3 Term 2
Course Code Course Title Credit
EEE 321 Digital Signal Processing 3
EEE 322 Digital Signal Processing Laboratory 1
EEE Syllabus | 2019 8
EEE 323 Control Systems 3
EEE 324 Control Systems Laboratory 1
EEE 325 Power System Analysis 3
HUM 321 Engineering Ethics and Environmental Protection 2
Total 13
Level 3 Term 3
Course Code Course Title Credit
EEE 331 Microprocessor and Interfacing 3
EEE 332 Microprocessor and Interfacing Laboratory 1
EEE 335 Power Electronics 3
EEE 336 Power Electronics Laboratory 1
EEE 337 Measurement and Instrumentation 3
EEE 338 Measurement and Instrumentation Laboratory 1
Total 12
Level 4 Term 1
Course Code Course Title Credit
ECO 411 Energy Economics 3
IPE 411 Industrial and Operational Management 3
EEE 414 Electrical Appliances and Services Design
Laboratory 1
EMP 101
HUM 413
Employability 360o
Technology Entrepreneurship 2
EEE 4 Elective I (Major) 3
EEE 400 Capstone Project (Part-1) 1
Total 13
Level 4 Term 2
Course Code Course Title Credit
EEE 4 Elective II (Major) 3
EEE 4 Elective II Laboratory (Major) 1
EEE 4 Elective I (Minor) 3
EEE 4 Elective II (Minor) 3
EEE 4 Elective II Laboratory (Minor) 1
EEE 400 Capstone Project (Part-2) 2
Total 13
Level 4 Term 3
Course Code Course Title Credit
EEE 4 Elective I (Minor) 3
EEE Syllabus | 2019 9
EEE 400 Capstone Project (Part-3) 2
Total 5
Course Contents
EEE 121 Fundamental of Electrical Circuits
Credit(s) 30
Pre-requisite(s) None
Circuit variables voltage current power and energy Voltage and current independent and dependent
sources Circuit elements resistance inductance and capacitance Modeling of practical circuits Ohmrsquos law
and Kirchhoff‟s laws Solution of simple circuits with both dependent and independent sources Series-
parallel resistance circuits and their equivalents Voltage and current divider circuits Delta-Wye
equivalent circuits
Basic Magnetic Circuits Magnetic quantities and variables Field Flux Flux Density Magnetomotive
Force Magnetic Field Strength permeability and B-H Curve reluctance magnetic field strength Laws in
magnetic circuits Ohmrsquos law and Amperersquos circuital law
Definitions of ac voltage current power volt-ampere and various factors (including power peak form
factors etc)
Introduction to sinusoidal steady state analysis Sinusoidal sources phasor impedance admittance
reactance susceptance voltage current power of R L C R-L R-C R-L-C circuits with sinusoidal source
Series - parallel and Delta-Wye simplifications of circuits with R L Cs
EEE 131 Electrical Circuits I
Credit(s) 30
Pre-requisite(s) EEE 121
Techniques of general DC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh-current method Source transformations
Thevenin and Norton equivalents Maximum power transfer Superposition technique Properties of
Inductances and capacitances Series-parallel combinations of inductances and capacitances
Concepts of transient and steady state response with dc source
Techniques of general AC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh current method Source transformations Thevenin and Norton Equivalents Phasor
diagrams Sinusoidal steady state power calculations RMS values Real and reactive power Maximum
power transfer impedance matching Steady state voltage current
EEE 211 Electrical Circuits II
Credit(s) 30
Pre-requisite(s) EEE 131
EEE Syllabus | 2019 10
Circuits with non-sinusoidal excitations power and power factor of ac circuits with multiple sources of
different frequencies Transients in AC circuits Passive Filter Networks basic types Characteristic
impedance and attenuation ladder network low pass high pass filters propagation coefficient and time
delay in filter sections practical composite filters Resonance in AC circuits Series and parallel resonance
and Q factors
Magnetically coupled circuits
Analysis of three phase circuits Three phase supply balanced and unbalanced circuits power calculation
and measurements Power factor improvement
Magnetic circuits Composite series magnetic circuit parallel and series-parallel circuits Comparison
between electrical and magnetic quantities Hysteresis and hysteresis loss Magnetic materials
EEE 212 Electrical Circuits Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Laboratory experiment will be conducted based on the theory taught
EEE 214 Circuit Simulation Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Simulation laboratory based on EEE 131 EEE 211 theory courses
EEE 215 Electronics I
Credit(s) 30
Pre-requisite(s) EEE 211
Semiconductor diodes semiconductor material and properties pn junction diode circuits dc analysis and
models diode circuits AC equivalent circuits other diode types single phase rectification and regulators
zener diode circuits clipper and clamper circuits multiple diode circuits photo diodes and LED circuits
DC power supply MOS Transistors Structure of MOSFET Current-Voltage Characteristics MOS Device
Models DC circuit analysis basic MOFET applications Biasing constant current biasing multistage
MOSFET circuits Junction Field effect transistor (JFET) MOSFET amplifier basic transistor amplifier
configurations-Common-Source Common-Gate Stage Source Follower (common drain) single stage
integrated circuit MOSFET amplifiers multistage amplifiers basic JFET amplifiers Bipolar Junction
transistor (BJT) BJT DC analysis of BJT circuits basic transistor applications biasing multistage circuits
BJT linear amplifiers-basic configurations CE amplifiers AC load lines CC and CB amplifier multistage
amplifiers power consideration Frequency Response Amplifier frequency response system transfer
function frequency response transistor amplifiers with circuit capacitors frequency response-BJT
frequency response- FET high frequency response of transistor circuits Output stages and power
amplifiers power amplifiers power transistors classes of amplifiers Class-A power amplifier Class-AB
push pull complimentary output stage
EEE 221 Electronics II
Credit(s) 30
Pre-requisite(s) EEE 215
EEE Syllabus | 2019 11
Ideal operational amplifier and op-amp circuits Op-amp applications inverting amplifier non-inverting
amplifier summing amplifier differential amplifier logarithmic amplifier operational transconductance
amplifiers exponential amplifier differentiator integrator voltage to current converter voltage follower
and other applications Non-ideality of op-amp Non-ideal op-amp characteristics and its effects Integrated
circuit biasing and active loads BJT current sources FET current sources small signal analysis of active
loads design applications an NMOS current source differential and multistage amplifiers BJT differential
amplifier FET differential amplifier differential amplifier with active load BiCMOS circuits gain stage
and simple output stage BJT operational amplifier circuit Frequency response of amplifiers Poles zeros
and Bode plots amplifier transfer function techniques of determining 3 dB frequencies of amplifier
circuits frequency response of single-stage and cascade amplifiers frequency response of differential
amplifiers Feedback and stability Basic feedback concept feedback topologies voltage(series-shunt)
amplifiers current (shunt-series) amplifiers transconductance (serie-series) amplifiers transresistance
(shuntshunt) amplifiers loop gain stability of feedback circuit frequency compensation Applications and
Design of Integrated Circuits Active filter Oscillators Schmitt trigger Circuits Nonsinusoidal oscillators
and timing circuits integrated power amplifier voltage regulator Design application An active Bandpass
filter
555 Timer IC and its Applications
Introduction to power amplifier classes class A class B class AB class C operation
EEE 222 Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 221
Laboratory experiment will be conducted based on the theory taught
EEE 223 Energy Conversion I
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 211
Transformer principle of operation construction no load and excitation current behavior during loading
leakage flux ideal transformer leakage reactance and equivalent circuit of a transformer equivalent
impedance voltage regulation per unit quantities regulation losses and efficiency determination of
parameters by tests polarity of transformer windings transformer parallel operation
Three phase transformer Construction connection configuration vector group parallel operation power
application etc
Autotransformer instrument transformers
Single Phase Induction Motor operation double revolving field theory starting methods equivalent
circuit torque-speed characteristic and performance calculation
Three phase induction motor rotating magnetic field synchronous speed torque in induction motor
induction motor construction squirrel cage wound rotor Slip and its effect on rotor frequency and voltage
equivalent circuit of an induction motor air gap power mechanical power and developed torque torque
speed characteristic losses efficiency and power factor classification shaping torque speed characteristic
determination of induction motor parameters by tests methods of braking speed control
Induction generator Working principle and operation characteristics voltage build up applications in
wind turbine
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 2
List of Courses
The list of courses in the curriculum of BSc in Electrical and Electronic Engineering (EEE) program is
illustrated below
Language (5 Credit)
Course Code Course Title Credit
HUM 111 Functional Bengali Language 2
HUM 221 Professional English 3
General Education Development (15 Credit)
Course Code Course Title Credit
BDS 101 Bangladesh Studies 2
AOL 101 Art of Living 2
EMP 101 Employability 360o 2
ACC 121 Financial and Managerial Accounting 2
HUM 211 Sociology 2
HUM 321 Engineering Ethics and Environmental Protection 2
ECO 411 Energy Economics 3
HUM 413 Technology Entrepreneurship 2
IPE 411 Industrial and Operational Management 2
Basic Science (8 Credit)
Course Code Course Title Credit
PHY 111 Physics 3
PHY 112 Physics Laboratory 1
CHE 101 Chemistry 3
CHE 112 Chemistry Laboratory 1
Mathematics (19 Credit)
Course Code Course Title Credit
MAT 111 Differential and Integral Calculus 3
MAT 121 Complex variable and Vector analysis 3
MAT 131 Ordinary and Partial Differential Equation 3
MAT 133 Probability and Statistics 3
MAT 211 Linear Algebra and Co-ordinate Geometry 3
MAT 221 Continuous Signals and Linear Systems 3
MAT 318 Numerical Analysis Laboratory 1
EEE Syllabus | 2019 3
Other Engineering (7 Credit)
Course Code Course Title Credit
CE 122 Engineering Drawing 1
CSE 131 Computer Programming and Application 3
ME 231 Basic Mechanical Engineering 3
Core Courses (72 Credit)
Course Code Course Title Credit
EEE 121 Fundamental of Electrical Circuits 3
EEE 131 Electrical Circuit I 3
EEE 211 Electrical Circuit II 3
EEE 212 Electrical Circuit Laboratory 1
EEE 215 Electronics I 3
EEE 214 Circuit Simulation Laboratory 1
EEE 221 Electronics II 3
EEE 222 Electronics Laboratory 1
EEE 223 Energy Conversion I 3
EEE 233 Energy Conversion II 3
EEE 234 Energy Conversion Laboratory 1
EEE 235 Electromagnetic Fields and Waves 3
EEE 237 Electrical Properties of Materials 3
EEE 311 Digital Electronics 3
EEE 312 Digital Electronics Laboratory 1
EEE 313 Transmission and Distribution of Electric Power 3
EEE 315 Communication Engineering I 3
EEE 316 Communication Engineering Laboratory 1
EEE 321 Digital Signal Processing 3
EEE 322 Digital Signal Processing Laboratory 1
EEE 323 Control Systems 3
EEE 324 Control Systems Laboratory 1
EEE 325 Power System analysis 3
EEE 331 Microprocessor and Interfacing 3
EEE 332 Microprocessor and Interfacing Laboratory 1
EEE 335 Power Electronics 3
EEE 336 Power Electronics Laboratory 1
EEE 337 Measurement and Instrumentation 3
EEE 338 Measurement and Instrumentation Laboratory 1
EEE 414 Electrical Appliances and Services Design Laboratory 1
EEE 402 Industrial Training Internship 1
EEE 400 Capstone Project 5
EEE Syllabus | 2019 4
Technical Electives
Students will take at least two theories and one laboratory courses from herhis major area and three theories
and one laboratory courses from other areas
POWER
ELECTIVE I
Course Code Course Title Credit
EEE 449 Power Plant Engineering 3
EEE 465 Special Machines 3
EEE 481 Power System Operation and Control 3
EEE 487 Smart Grid System 3
EEE 489 Nuclear Power Engineering 3
EEE 497 Power System Reliability 3
ELECTIVE II
Course Code Course Title Credit
EEE 457 Power System Protection 3
EEE 458 Power System Protection Laboratory 1
EEE 471 High Voltage Engineering 3
EEE 472 High Voltage Engineering Laboratory 1
EEE 479 Renewable Energy 3
EEE 480 Renewable Energy Laboratory 1
ELECTRONICS
ELECTIVE I
Course Code Course Title Credit
EEE 451 Solid State Devices 3
EEE 455 Compound Semiconductor Devices 3
EEE 459 Optoelectronic Devices 3
EEE 495 Nano-electronics and Nano Technology 3
EEE 499 Semiconductor and Nano Device 3
ELECTIVE II
Course Code Course Title Credit
EEE 441 VLSI Circuits 3
EEE 442 VLSI Circuits Laboratory 1
EEE 473 VHDL in Logic Synthesis 3
EEE 474 VHDL in Logic Synthesis Laboratory 1
EEE 491 Biomedical Electronics 3
EEE 492 Biomedical Electronics Laboratory 1
EEE Syllabus | 2019 5
COMMUNICATION
ELECTIVE I
Course Code Course Title Credit
EEE 443 Random Signal processing 3
EEE 445 Satellite Communication 3
EEE 453 Telecommunication Engineering 3
EEE 467 Mobile Cellular Communication 3
EEE 475 Communication Engineering II 3
EEE 493 Digital Filter Design 3
ELECTIVE II
Course Code Course Title Credit
EEE 461 Optical Fiber Communication 3
EEE 462 Optical Fiber Communication Laboratory 1
EEE 483 Microwave Engineering 3
EEE 484 Microwave Engineering Laboratory 1
COMPUTER
ELECTIVE I
Course Code Course Title Credit
EEE 447 Computer Architecture 3
EEE 469 Real Time Computer System 3
EEE 477 Multimedia Communications 3
EEE 485 Data Communication and Computer Networks 3
ELECTIVE II
Course Code Course Title Credit
EEE 463 Microprocessor System Design 3
EEE 464 Microprocessor System Design Laboratory 1
ROBOTICS AND EMBEDDED SYSTEM
ELECTIVE I
Course Code Course Title Credit
EEE 433 Introduction to Robotics 3
EEE 435 Industrial Automation and Robotics 3
ELECTIVE II
Course Code Course Title Credit
EEE 437 Introduction to Embedded System Design 3
EEE 438 Embedded System Design Laboratory 1
Suggested Course Offering
EEE Syllabus | 2019 6
The Department of Electrical and Electronic Engineering of Daffodil International University runs three
terms per year or level The suggested course offering based on the Level and Term for the program of
BSc in Electrical and Electronic Engineering (EEE) is illustrated below
Level 1 Term 1
Course Code Course Title Credit
HUM 111 Functional Bengali Language 2
MAT 111 Differential and Integral Calculus 3
PHY 111 Physics 3
PHY 112 Physics Laboratory 1
CHE 101 Chemistry 3
CHE 112 Chemistry Laboratory 1
Total 13
Level 1 Term 2
Course Code Course Title Credit
EEE 121 Fundamental of Electrical Circuits 3
MAT 121 Complex variable and Vector analysis 3
ACC 121 Financial and Managerial Accounting 2
BDS 101 Bangladesh Studies 2
CE 122 Engineering Drawing 1
Total 11
Level 1 Term 3
Course Code Course Title Credit
MAT 131 Ordinary and Partial Differential Equation 3
MAT 133 Probability and Statistics 3
EEE 131 Electrical Circuit I 3
CSE 131 Computer Programming and Application 3
Total 12
Level 2 Term 1
Course Code Course Title Credit
MAT 211 Linear Algebra and Co-ordinate Geometry 3
AOL 101 Art of Living 2
EEE Syllabus | 2019 7
HUM 211 Sociology
EEE 211 Electrical Circuit II 3
EEE 212 Electrical Circuit Laboratory 1
EEE 214 Circuit Simulation Laboratory 1
EEE 215 Electronics I 3
Total 13
Level 2 Term 2
Course Code Course Title Credit
EEE 221 Electronics II 3
EEE 222 Electronics Laboratory 1
EEE 223 Energy Conversion I 3
MAT 221 Continuous Signals and Linear Systems 3
HUM 221 Professional English 3
Total 13
Level 2 Term 3
Course Code Course Title Credit
EEE 233 Energy Conversion II 3
EEE 234 Energy Conversion Laboratory 1
EEE 235 Electromagnetic Fields and Waves 3
EEE 237 Electrical Properties of Materials 3
ME 231 Basic Mechanical Engineering 3
Total 13
Level 3 Term 1
Course Code Course Title Credit
EEE 311 Digital Electronics 3
EEE 312 Digital Electronics Laboratory 1
EEE 313 Transmission and Distribution of Electric Power 3
EEE 315 Communication Engineering I 3
EEE 316 Communication Engineering Laboratory 1
MAT 318 Numerical Analysis Laboratory 1
Total 12
Level 3 Term 2
Course Code Course Title Credit
EEE 321 Digital Signal Processing 3
EEE 322 Digital Signal Processing Laboratory 1
EEE Syllabus | 2019 8
EEE 323 Control Systems 3
EEE 324 Control Systems Laboratory 1
EEE 325 Power System Analysis 3
HUM 321 Engineering Ethics and Environmental Protection 2
Total 13
Level 3 Term 3
Course Code Course Title Credit
EEE 331 Microprocessor and Interfacing 3
EEE 332 Microprocessor and Interfacing Laboratory 1
EEE 335 Power Electronics 3
EEE 336 Power Electronics Laboratory 1
EEE 337 Measurement and Instrumentation 3
EEE 338 Measurement and Instrumentation Laboratory 1
Total 12
Level 4 Term 1
Course Code Course Title Credit
ECO 411 Energy Economics 3
IPE 411 Industrial and Operational Management 3
EEE 414 Electrical Appliances and Services Design
Laboratory 1
EMP 101
HUM 413
Employability 360o
Technology Entrepreneurship 2
EEE 4 Elective I (Major) 3
EEE 400 Capstone Project (Part-1) 1
Total 13
Level 4 Term 2
Course Code Course Title Credit
EEE 4 Elective II (Major) 3
EEE 4 Elective II Laboratory (Major) 1
EEE 4 Elective I (Minor) 3
EEE 4 Elective II (Minor) 3
EEE 4 Elective II Laboratory (Minor) 1
EEE 400 Capstone Project (Part-2) 2
Total 13
Level 4 Term 3
Course Code Course Title Credit
EEE 4 Elective I (Minor) 3
EEE Syllabus | 2019 9
EEE 400 Capstone Project (Part-3) 2
Total 5
Course Contents
EEE 121 Fundamental of Electrical Circuits
Credit(s) 30
Pre-requisite(s) None
Circuit variables voltage current power and energy Voltage and current independent and dependent
sources Circuit elements resistance inductance and capacitance Modeling of practical circuits Ohmrsquos law
and Kirchhoff‟s laws Solution of simple circuits with both dependent and independent sources Series-
parallel resistance circuits and their equivalents Voltage and current divider circuits Delta-Wye
equivalent circuits
Basic Magnetic Circuits Magnetic quantities and variables Field Flux Flux Density Magnetomotive
Force Magnetic Field Strength permeability and B-H Curve reluctance magnetic field strength Laws in
magnetic circuits Ohmrsquos law and Amperersquos circuital law
Definitions of ac voltage current power volt-ampere and various factors (including power peak form
factors etc)
Introduction to sinusoidal steady state analysis Sinusoidal sources phasor impedance admittance
reactance susceptance voltage current power of R L C R-L R-C R-L-C circuits with sinusoidal source
Series - parallel and Delta-Wye simplifications of circuits with R L Cs
EEE 131 Electrical Circuits I
Credit(s) 30
Pre-requisite(s) EEE 121
Techniques of general DC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh-current method Source transformations
Thevenin and Norton equivalents Maximum power transfer Superposition technique Properties of
Inductances and capacitances Series-parallel combinations of inductances and capacitances
Concepts of transient and steady state response with dc source
Techniques of general AC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh current method Source transformations Thevenin and Norton Equivalents Phasor
diagrams Sinusoidal steady state power calculations RMS values Real and reactive power Maximum
power transfer impedance matching Steady state voltage current
EEE 211 Electrical Circuits II
Credit(s) 30
Pre-requisite(s) EEE 131
EEE Syllabus | 2019 10
Circuits with non-sinusoidal excitations power and power factor of ac circuits with multiple sources of
different frequencies Transients in AC circuits Passive Filter Networks basic types Characteristic
impedance and attenuation ladder network low pass high pass filters propagation coefficient and time
delay in filter sections practical composite filters Resonance in AC circuits Series and parallel resonance
and Q factors
Magnetically coupled circuits
Analysis of three phase circuits Three phase supply balanced and unbalanced circuits power calculation
and measurements Power factor improvement
Magnetic circuits Composite series magnetic circuit parallel and series-parallel circuits Comparison
between electrical and magnetic quantities Hysteresis and hysteresis loss Magnetic materials
EEE 212 Electrical Circuits Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Laboratory experiment will be conducted based on the theory taught
EEE 214 Circuit Simulation Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Simulation laboratory based on EEE 131 EEE 211 theory courses
EEE 215 Electronics I
Credit(s) 30
Pre-requisite(s) EEE 211
Semiconductor diodes semiconductor material and properties pn junction diode circuits dc analysis and
models diode circuits AC equivalent circuits other diode types single phase rectification and regulators
zener diode circuits clipper and clamper circuits multiple diode circuits photo diodes and LED circuits
DC power supply MOS Transistors Structure of MOSFET Current-Voltage Characteristics MOS Device
Models DC circuit analysis basic MOFET applications Biasing constant current biasing multistage
MOSFET circuits Junction Field effect transistor (JFET) MOSFET amplifier basic transistor amplifier
configurations-Common-Source Common-Gate Stage Source Follower (common drain) single stage
integrated circuit MOSFET amplifiers multistage amplifiers basic JFET amplifiers Bipolar Junction
transistor (BJT) BJT DC analysis of BJT circuits basic transistor applications biasing multistage circuits
BJT linear amplifiers-basic configurations CE amplifiers AC load lines CC and CB amplifier multistage
amplifiers power consideration Frequency Response Amplifier frequency response system transfer
function frequency response transistor amplifiers with circuit capacitors frequency response-BJT
frequency response- FET high frequency response of transistor circuits Output stages and power
amplifiers power amplifiers power transistors classes of amplifiers Class-A power amplifier Class-AB
push pull complimentary output stage
EEE 221 Electronics II
Credit(s) 30
Pre-requisite(s) EEE 215
EEE Syllabus | 2019 11
Ideal operational amplifier and op-amp circuits Op-amp applications inverting amplifier non-inverting
amplifier summing amplifier differential amplifier logarithmic amplifier operational transconductance
amplifiers exponential amplifier differentiator integrator voltage to current converter voltage follower
and other applications Non-ideality of op-amp Non-ideal op-amp characteristics and its effects Integrated
circuit biasing and active loads BJT current sources FET current sources small signal analysis of active
loads design applications an NMOS current source differential and multistage amplifiers BJT differential
amplifier FET differential amplifier differential amplifier with active load BiCMOS circuits gain stage
and simple output stage BJT operational amplifier circuit Frequency response of amplifiers Poles zeros
and Bode plots amplifier transfer function techniques of determining 3 dB frequencies of amplifier
circuits frequency response of single-stage and cascade amplifiers frequency response of differential
amplifiers Feedback and stability Basic feedback concept feedback topologies voltage(series-shunt)
amplifiers current (shunt-series) amplifiers transconductance (serie-series) amplifiers transresistance
(shuntshunt) amplifiers loop gain stability of feedback circuit frequency compensation Applications and
Design of Integrated Circuits Active filter Oscillators Schmitt trigger Circuits Nonsinusoidal oscillators
and timing circuits integrated power amplifier voltage regulator Design application An active Bandpass
filter
555 Timer IC and its Applications
Introduction to power amplifier classes class A class B class AB class C operation
EEE 222 Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 221
Laboratory experiment will be conducted based on the theory taught
EEE 223 Energy Conversion I
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 211
Transformer principle of operation construction no load and excitation current behavior during loading
leakage flux ideal transformer leakage reactance and equivalent circuit of a transformer equivalent
impedance voltage regulation per unit quantities regulation losses and efficiency determination of
parameters by tests polarity of transformer windings transformer parallel operation
Three phase transformer Construction connection configuration vector group parallel operation power
application etc
Autotransformer instrument transformers
Single Phase Induction Motor operation double revolving field theory starting methods equivalent
circuit torque-speed characteristic and performance calculation
Three phase induction motor rotating magnetic field synchronous speed torque in induction motor
induction motor construction squirrel cage wound rotor Slip and its effect on rotor frequency and voltage
equivalent circuit of an induction motor air gap power mechanical power and developed torque torque
speed characteristic losses efficiency and power factor classification shaping torque speed characteristic
determination of induction motor parameters by tests methods of braking speed control
Induction generator Working principle and operation characteristics voltage build up applications in
wind turbine
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 3
Other Engineering (7 Credit)
Course Code Course Title Credit
CE 122 Engineering Drawing 1
CSE 131 Computer Programming and Application 3
ME 231 Basic Mechanical Engineering 3
Core Courses (72 Credit)
Course Code Course Title Credit
EEE 121 Fundamental of Electrical Circuits 3
EEE 131 Electrical Circuit I 3
EEE 211 Electrical Circuit II 3
EEE 212 Electrical Circuit Laboratory 1
EEE 215 Electronics I 3
EEE 214 Circuit Simulation Laboratory 1
EEE 221 Electronics II 3
EEE 222 Electronics Laboratory 1
EEE 223 Energy Conversion I 3
EEE 233 Energy Conversion II 3
EEE 234 Energy Conversion Laboratory 1
EEE 235 Electromagnetic Fields and Waves 3
EEE 237 Electrical Properties of Materials 3
EEE 311 Digital Electronics 3
EEE 312 Digital Electronics Laboratory 1
EEE 313 Transmission and Distribution of Electric Power 3
EEE 315 Communication Engineering I 3
EEE 316 Communication Engineering Laboratory 1
EEE 321 Digital Signal Processing 3
EEE 322 Digital Signal Processing Laboratory 1
EEE 323 Control Systems 3
EEE 324 Control Systems Laboratory 1
EEE 325 Power System analysis 3
EEE 331 Microprocessor and Interfacing 3
EEE 332 Microprocessor and Interfacing Laboratory 1
EEE 335 Power Electronics 3
EEE 336 Power Electronics Laboratory 1
EEE 337 Measurement and Instrumentation 3
EEE 338 Measurement and Instrumentation Laboratory 1
EEE 414 Electrical Appliances and Services Design Laboratory 1
EEE 402 Industrial Training Internship 1
EEE 400 Capstone Project 5
EEE Syllabus | 2019 4
Technical Electives
Students will take at least two theories and one laboratory courses from herhis major area and three theories
and one laboratory courses from other areas
POWER
ELECTIVE I
Course Code Course Title Credit
EEE 449 Power Plant Engineering 3
EEE 465 Special Machines 3
EEE 481 Power System Operation and Control 3
EEE 487 Smart Grid System 3
EEE 489 Nuclear Power Engineering 3
EEE 497 Power System Reliability 3
ELECTIVE II
Course Code Course Title Credit
EEE 457 Power System Protection 3
EEE 458 Power System Protection Laboratory 1
EEE 471 High Voltage Engineering 3
EEE 472 High Voltage Engineering Laboratory 1
EEE 479 Renewable Energy 3
EEE 480 Renewable Energy Laboratory 1
ELECTRONICS
ELECTIVE I
Course Code Course Title Credit
EEE 451 Solid State Devices 3
EEE 455 Compound Semiconductor Devices 3
EEE 459 Optoelectronic Devices 3
EEE 495 Nano-electronics and Nano Technology 3
EEE 499 Semiconductor and Nano Device 3
ELECTIVE II
Course Code Course Title Credit
EEE 441 VLSI Circuits 3
EEE 442 VLSI Circuits Laboratory 1
EEE 473 VHDL in Logic Synthesis 3
EEE 474 VHDL in Logic Synthesis Laboratory 1
EEE 491 Biomedical Electronics 3
EEE 492 Biomedical Electronics Laboratory 1
EEE Syllabus | 2019 5
COMMUNICATION
ELECTIVE I
Course Code Course Title Credit
EEE 443 Random Signal processing 3
EEE 445 Satellite Communication 3
EEE 453 Telecommunication Engineering 3
EEE 467 Mobile Cellular Communication 3
EEE 475 Communication Engineering II 3
EEE 493 Digital Filter Design 3
ELECTIVE II
Course Code Course Title Credit
EEE 461 Optical Fiber Communication 3
EEE 462 Optical Fiber Communication Laboratory 1
EEE 483 Microwave Engineering 3
EEE 484 Microwave Engineering Laboratory 1
COMPUTER
ELECTIVE I
Course Code Course Title Credit
EEE 447 Computer Architecture 3
EEE 469 Real Time Computer System 3
EEE 477 Multimedia Communications 3
EEE 485 Data Communication and Computer Networks 3
ELECTIVE II
Course Code Course Title Credit
EEE 463 Microprocessor System Design 3
EEE 464 Microprocessor System Design Laboratory 1
ROBOTICS AND EMBEDDED SYSTEM
ELECTIVE I
Course Code Course Title Credit
EEE 433 Introduction to Robotics 3
EEE 435 Industrial Automation and Robotics 3
ELECTIVE II
Course Code Course Title Credit
EEE 437 Introduction to Embedded System Design 3
EEE 438 Embedded System Design Laboratory 1
Suggested Course Offering
EEE Syllabus | 2019 6
The Department of Electrical and Electronic Engineering of Daffodil International University runs three
terms per year or level The suggested course offering based on the Level and Term for the program of
BSc in Electrical and Electronic Engineering (EEE) is illustrated below
Level 1 Term 1
Course Code Course Title Credit
HUM 111 Functional Bengali Language 2
MAT 111 Differential and Integral Calculus 3
PHY 111 Physics 3
PHY 112 Physics Laboratory 1
CHE 101 Chemistry 3
CHE 112 Chemistry Laboratory 1
Total 13
Level 1 Term 2
Course Code Course Title Credit
EEE 121 Fundamental of Electrical Circuits 3
MAT 121 Complex variable and Vector analysis 3
ACC 121 Financial and Managerial Accounting 2
BDS 101 Bangladesh Studies 2
CE 122 Engineering Drawing 1
Total 11
Level 1 Term 3
Course Code Course Title Credit
MAT 131 Ordinary and Partial Differential Equation 3
MAT 133 Probability and Statistics 3
EEE 131 Electrical Circuit I 3
CSE 131 Computer Programming and Application 3
Total 12
Level 2 Term 1
Course Code Course Title Credit
MAT 211 Linear Algebra and Co-ordinate Geometry 3
AOL 101 Art of Living 2
EEE Syllabus | 2019 7
HUM 211 Sociology
EEE 211 Electrical Circuit II 3
EEE 212 Electrical Circuit Laboratory 1
EEE 214 Circuit Simulation Laboratory 1
EEE 215 Electronics I 3
Total 13
Level 2 Term 2
Course Code Course Title Credit
EEE 221 Electronics II 3
EEE 222 Electronics Laboratory 1
EEE 223 Energy Conversion I 3
MAT 221 Continuous Signals and Linear Systems 3
HUM 221 Professional English 3
Total 13
Level 2 Term 3
Course Code Course Title Credit
EEE 233 Energy Conversion II 3
EEE 234 Energy Conversion Laboratory 1
EEE 235 Electromagnetic Fields and Waves 3
EEE 237 Electrical Properties of Materials 3
ME 231 Basic Mechanical Engineering 3
Total 13
Level 3 Term 1
Course Code Course Title Credit
EEE 311 Digital Electronics 3
EEE 312 Digital Electronics Laboratory 1
EEE 313 Transmission and Distribution of Electric Power 3
EEE 315 Communication Engineering I 3
EEE 316 Communication Engineering Laboratory 1
MAT 318 Numerical Analysis Laboratory 1
Total 12
Level 3 Term 2
Course Code Course Title Credit
EEE 321 Digital Signal Processing 3
EEE 322 Digital Signal Processing Laboratory 1
EEE Syllabus | 2019 8
EEE 323 Control Systems 3
EEE 324 Control Systems Laboratory 1
EEE 325 Power System Analysis 3
HUM 321 Engineering Ethics and Environmental Protection 2
Total 13
Level 3 Term 3
Course Code Course Title Credit
EEE 331 Microprocessor and Interfacing 3
EEE 332 Microprocessor and Interfacing Laboratory 1
EEE 335 Power Electronics 3
EEE 336 Power Electronics Laboratory 1
EEE 337 Measurement and Instrumentation 3
EEE 338 Measurement and Instrumentation Laboratory 1
Total 12
Level 4 Term 1
Course Code Course Title Credit
ECO 411 Energy Economics 3
IPE 411 Industrial and Operational Management 3
EEE 414 Electrical Appliances and Services Design
Laboratory 1
EMP 101
HUM 413
Employability 360o
Technology Entrepreneurship 2
EEE 4 Elective I (Major) 3
EEE 400 Capstone Project (Part-1) 1
Total 13
Level 4 Term 2
Course Code Course Title Credit
EEE 4 Elective II (Major) 3
EEE 4 Elective II Laboratory (Major) 1
EEE 4 Elective I (Minor) 3
EEE 4 Elective II (Minor) 3
EEE 4 Elective II Laboratory (Minor) 1
EEE 400 Capstone Project (Part-2) 2
Total 13
Level 4 Term 3
Course Code Course Title Credit
EEE 4 Elective I (Minor) 3
EEE Syllabus | 2019 9
EEE 400 Capstone Project (Part-3) 2
Total 5
Course Contents
EEE 121 Fundamental of Electrical Circuits
Credit(s) 30
Pre-requisite(s) None
Circuit variables voltage current power and energy Voltage and current independent and dependent
sources Circuit elements resistance inductance and capacitance Modeling of practical circuits Ohmrsquos law
and Kirchhoff‟s laws Solution of simple circuits with both dependent and independent sources Series-
parallel resistance circuits and their equivalents Voltage and current divider circuits Delta-Wye
equivalent circuits
Basic Magnetic Circuits Magnetic quantities and variables Field Flux Flux Density Magnetomotive
Force Magnetic Field Strength permeability and B-H Curve reluctance magnetic field strength Laws in
magnetic circuits Ohmrsquos law and Amperersquos circuital law
Definitions of ac voltage current power volt-ampere and various factors (including power peak form
factors etc)
Introduction to sinusoidal steady state analysis Sinusoidal sources phasor impedance admittance
reactance susceptance voltage current power of R L C R-L R-C R-L-C circuits with sinusoidal source
Series - parallel and Delta-Wye simplifications of circuits with R L Cs
EEE 131 Electrical Circuits I
Credit(s) 30
Pre-requisite(s) EEE 121
Techniques of general DC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh-current method Source transformations
Thevenin and Norton equivalents Maximum power transfer Superposition technique Properties of
Inductances and capacitances Series-parallel combinations of inductances and capacitances
Concepts of transient and steady state response with dc source
Techniques of general AC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh current method Source transformations Thevenin and Norton Equivalents Phasor
diagrams Sinusoidal steady state power calculations RMS values Real and reactive power Maximum
power transfer impedance matching Steady state voltage current
EEE 211 Electrical Circuits II
Credit(s) 30
Pre-requisite(s) EEE 131
EEE Syllabus | 2019 10
Circuits with non-sinusoidal excitations power and power factor of ac circuits with multiple sources of
different frequencies Transients in AC circuits Passive Filter Networks basic types Characteristic
impedance and attenuation ladder network low pass high pass filters propagation coefficient and time
delay in filter sections practical composite filters Resonance in AC circuits Series and parallel resonance
and Q factors
Magnetically coupled circuits
Analysis of three phase circuits Three phase supply balanced and unbalanced circuits power calculation
and measurements Power factor improvement
Magnetic circuits Composite series magnetic circuit parallel and series-parallel circuits Comparison
between electrical and magnetic quantities Hysteresis and hysteresis loss Magnetic materials
EEE 212 Electrical Circuits Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Laboratory experiment will be conducted based on the theory taught
EEE 214 Circuit Simulation Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Simulation laboratory based on EEE 131 EEE 211 theory courses
EEE 215 Electronics I
Credit(s) 30
Pre-requisite(s) EEE 211
Semiconductor diodes semiconductor material and properties pn junction diode circuits dc analysis and
models diode circuits AC equivalent circuits other diode types single phase rectification and regulators
zener diode circuits clipper and clamper circuits multiple diode circuits photo diodes and LED circuits
DC power supply MOS Transistors Structure of MOSFET Current-Voltage Characteristics MOS Device
Models DC circuit analysis basic MOFET applications Biasing constant current biasing multistage
MOSFET circuits Junction Field effect transistor (JFET) MOSFET amplifier basic transistor amplifier
configurations-Common-Source Common-Gate Stage Source Follower (common drain) single stage
integrated circuit MOSFET amplifiers multistage amplifiers basic JFET amplifiers Bipolar Junction
transistor (BJT) BJT DC analysis of BJT circuits basic transistor applications biasing multistage circuits
BJT linear amplifiers-basic configurations CE amplifiers AC load lines CC and CB amplifier multistage
amplifiers power consideration Frequency Response Amplifier frequency response system transfer
function frequency response transistor amplifiers with circuit capacitors frequency response-BJT
frequency response- FET high frequency response of transistor circuits Output stages and power
amplifiers power amplifiers power transistors classes of amplifiers Class-A power amplifier Class-AB
push pull complimentary output stage
EEE 221 Electronics II
Credit(s) 30
Pre-requisite(s) EEE 215
EEE Syllabus | 2019 11
Ideal operational amplifier and op-amp circuits Op-amp applications inverting amplifier non-inverting
amplifier summing amplifier differential amplifier logarithmic amplifier operational transconductance
amplifiers exponential amplifier differentiator integrator voltage to current converter voltage follower
and other applications Non-ideality of op-amp Non-ideal op-amp characteristics and its effects Integrated
circuit biasing and active loads BJT current sources FET current sources small signal analysis of active
loads design applications an NMOS current source differential and multistage amplifiers BJT differential
amplifier FET differential amplifier differential amplifier with active load BiCMOS circuits gain stage
and simple output stage BJT operational amplifier circuit Frequency response of amplifiers Poles zeros
and Bode plots amplifier transfer function techniques of determining 3 dB frequencies of amplifier
circuits frequency response of single-stage and cascade amplifiers frequency response of differential
amplifiers Feedback and stability Basic feedback concept feedback topologies voltage(series-shunt)
amplifiers current (shunt-series) amplifiers transconductance (serie-series) amplifiers transresistance
(shuntshunt) amplifiers loop gain stability of feedback circuit frequency compensation Applications and
Design of Integrated Circuits Active filter Oscillators Schmitt trigger Circuits Nonsinusoidal oscillators
and timing circuits integrated power amplifier voltage regulator Design application An active Bandpass
filter
555 Timer IC and its Applications
Introduction to power amplifier classes class A class B class AB class C operation
EEE 222 Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 221
Laboratory experiment will be conducted based on the theory taught
EEE 223 Energy Conversion I
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 211
Transformer principle of operation construction no load and excitation current behavior during loading
leakage flux ideal transformer leakage reactance and equivalent circuit of a transformer equivalent
impedance voltage regulation per unit quantities regulation losses and efficiency determination of
parameters by tests polarity of transformer windings transformer parallel operation
Three phase transformer Construction connection configuration vector group parallel operation power
application etc
Autotransformer instrument transformers
Single Phase Induction Motor operation double revolving field theory starting methods equivalent
circuit torque-speed characteristic and performance calculation
Three phase induction motor rotating magnetic field synchronous speed torque in induction motor
induction motor construction squirrel cage wound rotor Slip and its effect on rotor frequency and voltage
equivalent circuit of an induction motor air gap power mechanical power and developed torque torque
speed characteristic losses efficiency and power factor classification shaping torque speed characteristic
determination of induction motor parameters by tests methods of braking speed control
Induction generator Working principle and operation characteristics voltage build up applications in
wind turbine
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 4
Technical Electives
Students will take at least two theories and one laboratory courses from herhis major area and three theories
and one laboratory courses from other areas
POWER
ELECTIVE I
Course Code Course Title Credit
EEE 449 Power Plant Engineering 3
EEE 465 Special Machines 3
EEE 481 Power System Operation and Control 3
EEE 487 Smart Grid System 3
EEE 489 Nuclear Power Engineering 3
EEE 497 Power System Reliability 3
ELECTIVE II
Course Code Course Title Credit
EEE 457 Power System Protection 3
EEE 458 Power System Protection Laboratory 1
EEE 471 High Voltage Engineering 3
EEE 472 High Voltage Engineering Laboratory 1
EEE 479 Renewable Energy 3
EEE 480 Renewable Energy Laboratory 1
ELECTRONICS
ELECTIVE I
Course Code Course Title Credit
EEE 451 Solid State Devices 3
EEE 455 Compound Semiconductor Devices 3
EEE 459 Optoelectronic Devices 3
EEE 495 Nano-electronics and Nano Technology 3
EEE 499 Semiconductor and Nano Device 3
ELECTIVE II
Course Code Course Title Credit
EEE 441 VLSI Circuits 3
EEE 442 VLSI Circuits Laboratory 1
EEE 473 VHDL in Logic Synthesis 3
EEE 474 VHDL in Logic Synthesis Laboratory 1
EEE 491 Biomedical Electronics 3
EEE 492 Biomedical Electronics Laboratory 1
EEE Syllabus | 2019 5
COMMUNICATION
ELECTIVE I
Course Code Course Title Credit
EEE 443 Random Signal processing 3
EEE 445 Satellite Communication 3
EEE 453 Telecommunication Engineering 3
EEE 467 Mobile Cellular Communication 3
EEE 475 Communication Engineering II 3
EEE 493 Digital Filter Design 3
ELECTIVE II
Course Code Course Title Credit
EEE 461 Optical Fiber Communication 3
EEE 462 Optical Fiber Communication Laboratory 1
EEE 483 Microwave Engineering 3
EEE 484 Microwave Engineering Laboratory 1
COMPUTER
ELECTIVE I
Course Code Course Title Credit
EEE 447 Computer Architecture 3
EEE 469 Real Time Computer System 3
EEE 477 Multimedia Communications 3
EEE 485 Data Communication and Computer Networks 3
ELECTIVE II
Course Code Course Title Credit
EEE 463 Microprocessor System Design 3
EEE 464 Microprocessor System Design Laboratory 1
ROBOTICS AND EMBEDDED SYSTEM
ELECTIVE I
Course Code Course Title Credit
EEE 433 Introduction to Robotics 3
EEE 435 Industrial Automation and Robotics 3
ELECTIVE II
Course Code Course Title Credit
EEE 437 Introduction to Embedded System Design 3
EEE 438 Embedded System Design Laboratory 1
Suggested Course Offering
EEE Syllabus | 2019 6
The Department of Electrical and Electronic Engineering of Daffodil International University runs three
terms per year or level The suggested course offering based on the Level and Term for the program of
BSc in Electrical and Electronic Engineering (EEE) is illustrated below
Level 1 Term 1
Course Code Course Title Credit
HUM 111 Functional Bengali Language 2
MAT 111 Differential and Integral Calculus 3
PHY 111 Physics 3
PHY 112 Physics Laboratory 1
CHE 101 Chemistry 3
CHE 112 Chemistry Laboratory 1
Total 13
Level 1 Term 2
Course Code Course Title Credit
EEE 121 Fundamental of Electrical Circuits 3
MAT 121 Complex variable and Vector analysis 3
ACC 121 Financial and Managerial Accounting 2
BDS 101 Bangladesh Studies 2
CE 122 Engineering Drawing 1
Total 11
Level 1 Term 3
Course Code Course Title Credit
MAT 131 Ordinary and Partial Differential Equation 3
MAT 133 Probability and Statistics 3
EEE 131 Electrical Circuit I 3
CSE 131 Computer Programming and Application 3
Total 12
Level 2 Term 1
Course Code Course Title Credit
MAT 211 Linear Algebra and Co-ordinate Geometry 3
AOL 101 Art of Living 2
EEE Syllabus | 2019 7
HUM 211 Sociology
EEE 211 Electrical Circuit II 3
EEE 212 Electrical Circuit Laboratory 1
EEE 214 Circuit Simulation Laboratory 1
EEE 215 Electronics I 3
Total 13
Level 2 Term 2
Course Code Course Title Credit
EEE 221 Electronics II 3
EEE 222 Electronics Laboratory 1
EEE 223 Energy Conversion I 3
MAT 221 Continuous Signals and Linear Systems 3
HUM 221 Professional English 3
Total 13
Level 2 Term 3
Course Code Course Title Credit
EEE 233 Energy Conversion II 3
EEE 234 Energy Conversion Laboratory 1
EEE 235 Electromagnetic Fields and Waves 3
EEE 237 Electrical Properties of Materials 3
ME 231 Basic Mechanical Engineering 3
Total 13
Level 3 Term 1
Course Code Course Title Credit
EEE 311 Digital Electronics 3
EEE 312 Digital Electronics Laboratory 1
EEE 313 Transmission and Distribution of Electric Power 3
EEE 315 Communication Engineering I 3
EEE 316 Communication Engineering Laboratory 1
MAT 318 Numerical Analysis Laboratory 1
Total 12
Level 3 Term 2
Course Code Course Title Credit
EEE 321 Digital Signal Processing 3
EEE 322 Digital Signal Processing Laboratory 1
EEE Syllabus | 2019 8
EEE 323 Control Systems 3
EEE 324 Control Systems Laboratory 1
EEE 325 Power System Analysis 3
HUM 321 Engineering Ethics and Environmental Protection 2
Total 13
Level 3 Term 3
Course Code Course Title Credit
EEE 331 Microprocessor and Interfacing 3
EEE 332 Microprocessor and Interfacing Laboratory 1
EEE 335 Power Electronics 3
EEE 336 Power Electronics Laboratory 1
EEE 337 Measurement and Instrumentation 3
EEE 338 Measurement and Instrumentation Laboratory 1
Total 12
Level 4 Term 1
Course Code Course Title Credit
ECO 411 Energy Economics 3
IPE 411 Industrial and Operational Management 3
EEE 414 Electrical Appliances and Services Design
Laboratory 1
EMP 101
HUM 413
Employability 360o
Technology Entrepreneurship 2
EEE 4 Elective I (Major) 3
EEE 400 Capstone Project (Part-1) 1
Total 13
Level 4 Term 2
Course Code Course Title Credit
EEE 4 Elective II (Major) 3
EEE 4 Elective II Laboratory (Major) 1
EEE 4 Elective I (Minor) 3
EEE 4 Elective II (Minor) 3
EEE 4 Elective II Laboratory (Minor) 1
EEE 400 Capstone Project (Part-2) 2
Total 13
Level 4 Term 3
Course Code Course Title Credit
EEE 4 Elective I (Minor) 3
EEE Syllabus | 2019 9
EEE 400 Capstone Project (Part-3) 2
Total 5
Course Contents
EEE 121 Fundamental of Electrical Circuits
Credit(s) 30
Pre-requisite(s) None
Circuit variables voltage current power and energy Voltage and current independent and dependent
sources Circuit elements resistance inductance and capacitance Modeling of practical circuits Ohmrsquos law
and Kirchhoff‟s laws Solution of simple circuits with both dependent and independent sources Series-
parallel resistance circuits and their equivalents Voltage and current divider circuits Delta-Wye
equivalent circuits
Basic Magnetic Circuits Magnetic quantities and variables Field Flux Flux Density Magnetomotive
Force Magnetic Field Strength permeability and B-H Curve reluctance magnetic field strength Laws in
magnetic circuits Ohmrsquos law and Amperersquos circuital law
Definitions of ac voltage current power volt-ampere and various factors (including power peak form
factors etc)
Introduction to sinusoidal steady state analysis Sinusoidal sources phasor impedance admittance
reactance susceptance voltage current power of R L C R-L R-C R-L-C circuits with sinusoidal source
Series - parallel and Delta-Wye simplifications of circuits with R L Cs
EEE 131 Electrical Circuits I
Credit(s) 30
Pre-requisite(s) EEE 121
Techniques of general DC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh-current method Source transformations
Thevenin and Norton equivalents Maximum power transfer Superposition technique Properties of
Inductances and capacitances Series-parallel combinations of inductances and capacitances
Concepts of transient and steady state response with dc source
Techniques of general AC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh current method Source transformations Thevenin and Norton Equivalents Phasor
diagrams Sinusoidal steady state power calculations RMS values Real and reactive power Maximum
power transfer impedance matching Steady state voltage current
EEE 211 Electrical Circuits II
Credit(s) 30
Pre-requisite(s) EEE 131
EEE Syllabus | 2019 10
Circuits with non-sinusoidal excitations power and power factor of ac circuits with multiple sources of
different frequencies Transients in AC circuits Passive Filter Networks basic types Characteristic
impedance and attenuation ladder network low pass high pass filters propagation coefficient and time
delay in filter sections practical composite filters Resonance in AC circuits Series and parallel resonance
and Q factors
Magnetically coupled circuits
Analysis of three phase circuits Three phase supply balanced and unbalanced circuits power calculation
and measurements Power factor improvement
Magnetic circuits Composite series magnetic circuit parallel and series-parallel circuits Comparison
between electrical and magnetic quantities Hysteresis and hysteresis loss Magnetic materials
EEE 212 Electrical Circuits Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Laboratory experiment will be conducted based on the theory taught
EEE 214 Circuit Simulation Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Simulation laboratory based on EEE 131 EEE 211 theory courses
EEE 215 Electronics I
Credit(s) 30
Pre-requisite(s) EEE 211
Semiconductor diodes semiconductor material and properties pn junction diode circuits dc analysis and
models diode circuits AC equivalent circuits other diode types single phase rectification and regulators
zener diode circuits clipper and clamper circuits multiple diode circuits photo diodes and LED circuits
DC power supply MOS Transistors Structure of MOSFET Current-Voltage Characteristics MOS Device
Models DC circuit analysis basic MOFET applications Biasing constant current biasing multistage
MOSFET circuits Junction Field effect transistor (JFET) MOSFET amplifier basic transistor amplifier
configurations-Common-Source Common-Gate Stage Source Follower (common drain) single stage
integrated circuit MOSFET amplifiers multistage amplifiers basic JFET amplifiers Bipolar Junction
transistor (BJT) BJT DC analysis of BJT circuits basic transistor applications biasing multistage circuits
BJT linear amplifiers-basic configurations CE amplifiers AC load lines CC and CB amplifier multistage
amplifiers power consideration Frequency Response Amplifier frequency response system transfer
function frequency response transistor amplifiers with circuit capacitors frequency response-BJT
frequency response- FET high frequency response of transistor circuits Output stages and power
amplifiers power amplifiers power transistors classes of amplifiers Class-A power amplifier Class-AB
push pull complimentary output stage
EEE 221 Electronics II
Credit(s) 30
Pre-requisite(s) EEE 215
EEE Syllabus | 2019 11
Ideal operational amplifier and op-amp circuits Op-amp applications inverting amplifier non-inverting
amplifier summing amplifier differential amplifier logarithmic amplifier operational transconductance
amplifiers exponential amplifier differentiator integrator voltage to current converter voltage follower
and other applications Non-ideality of op-amp Non-ideal op-amp characteristics and its effects Integrated
circuit biasing and active loads BJT current sources FET current sources small signal analysis of active
loads design applications an NMOS current source differential and multistage amplifiers BJT differential
amplifier FET differential amplifier differential amplifier with active load BiCMOS circuits gain stage
and simple output stage BJT operational amplifier circuit Frequency response of amplifiers Poles zeros
and Bode plots amplifier transfer function techniques of determining 3 dB frequencies of amplifier
circuits frequency response of single-stage and cascade amplifiers frequency response of differential
amplifiers Feedback and stability Basic feedback concept feedback topologies voltage(series-shunt)
amplifiers current (shunt-series) amplifiers transconductance (serie-series) amplifiers transresistance
(shuntshunt) amplifiers loop gain stability of feedback circuit frequency compensation Applications and
Design of Integrated Circuits Active filter Oscillators Schmitt trigger Circuits Nonsinusoidal oscillators
and timing circuits integrated power amplifier voltage regulator Design application An active Bandpass
filter
555 Timer IC and its Applications
Introduction to power amplifier classes class A class B class AB class C operation
EEE 222 Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 221
Laboratory experiment will be conducted based on the theory taught
EEE 223 Energy Conversion I
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 211
Transformer principle of operation construction no load and excitation current behavior during loading
leakage flux ideal transformer leakage reactance and equivalent circuit of a transformer equivalent
impedance voltage regulation per unit quantities regulation losses and efficiency determination of
parameters by tests polarity of transformer windings transformer parallel operation
Three phase transformer Construction connection configuration vector group parallel operation power
application etc
Autotransformer instrument transformers
Single Phase Induction Motor operation double revolving field theory starting methods equivalent
circuit torque-speed characteristic and performance calculation
Three phase induction motor rotating magnetic field synchronous speed torque in induction motor
induction motor construction squirrel cage wound rotor Slip and its effect on rotor frequency and voltage
equivalent circuit of an induction motor air gap power mechanical power and developed torque torque
speed characteristic losses efficiency and power factor classification shaping torque speed characteristic
determination of induction motor parameters by tests methods of braking speed control
Induction generator Working principle and operation characteristics voltage build up applications in
wind turbine
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 5
COMMUNICATION
ELECTIVE I
Course Code Course Title Credit
EEE 443 Random Signal processing 3
EEE 445 Satellite Communication 3
EEE 453 Telecommunication Engineering 3
EEE 467 Mobile Cellular Communication 3
EEE 475 Communication Engineering II 3
EEE 493 Digital Filter Design 3
ELECTIVE II
Course Code Course Title Credit
EEE 461 Optical Fiber Communication 3
EEE 462 Optical Fiber Communication Laboratory 1
EEE 483 Microwave Engineering 3
EEE 484 Microwave Engineering Laboratory 1
COMPUTER
ELECTIVE I
Course Code Course Title Credit
EEE 447 Computer Architecture 3
EEE 469 Real Time Computer System 3
EEE 477 Multimedia Communications 3
EEE 485 Data Communication and Computer Networks 3
ELECTIVE II
Course Code Course Title Credit
EEE 463 Microprocessor System Design 3
EEE 464 Microprocessor System Design Laboratory 1
ROBOTICS AND EMBEDDED SYSTEM
ELECTIVE I
Course Code Course Title Credit
EEE 433 Introduction to Robotics 3
EEE 435 Industrial Automation and Robotics 3
ELECTIVE II
Course Code Course Title Credit
EEE 437 Introduction to Embedded System Design 3
EEE 438 Embedded System Design Laboratory 1
Suggested Course Offering
EEE Syllabus | 2019 6
The Department of Electrical and Electronic Engineering of Daffodil International University runs three
terms per year or level The suggested course offering based on the Level and Term for the program of
BSc in Electrical and Electronic Engineering (EEE) is illustrated below
Level 1 Term 1
Course Code Course Title Credit
HUM 111 Functional Bengali Language 2
MAT 111 Differential and Integral Calculus 3
PHY 111 Physics 3
PHY 112 Physics Laboratory 1
CHE 101 Chemistry 3
CHE 112 Chemistry Laboratory 1
Total 13
Level 1 Term 2
Course Code Course Title Credit
EEE 121 Fundamental of Electrical Circuits 3
MAT 121 Complex variable and Vector analysis 3
ACC 121 Financial and Managerial Accounting 2
BDS 101 Bangladesh Studies 2
CE 122 Engineering Drawing 1
Total 11
Level 1 Term 3
Course Code Course Title Credit
MAT 131 Ordinary and Partial Differential Equation 3
MAT 133 Probability and Statistics 3
EEE 131 Electrical Circuit I 3
CSE 131 Computer Programming and Application 3
Total 12
Level 2 Term 1
Course Code Course Title Credit
MAT 211 Linear Algebra and Co-ordinate Geometry 3
AOL 101 Art of Living 2
EEE Syllabus | 2019 7
HUM 211 Sociology
EEE 211 Electrical Circuit II 3
EEE 212 Electrical Circuit Laboratory 1
EEE 214 Circuit Simulation Laboratory 1
EEE 215 Electronics I 3
Total 13
Level 2 Term 2
Course Code Course Title Credit
EEE 221 Electronics II 3
EEE 222 Electronics Laboratory 1
EEE 223 Energy Conversion I 3
MAT 221 Continuous Signals and Linear Systems 3
HUM 221 Professional English 3
Total 13
Level 2 Term 3
Course Code Course Title Credit
EEE 233 Energy Conversion II 3
EEE 234 Energy Conversion Laboratory 1
EEE 235 Electromagnetic Fields and Waves 3
EEE 237 Electrical Properties of Materials 3
ME 231 Basic Mechanical Engineering 3
Total 13
Level 3 Term 1
Course Code Course Title Credit
EEE 311 Digital Electronics 3
EEE 312 Digital Electronics Laboratory 1
EEE 313 Transmission and Distribution of Electric Power 3
EEE 315 Communication Engineering I 3
EEE 316 Communication Engineering Laboratory 1
MAT 318 Numerical Analysis Laboratory 1
Total 12
Level 3 Term 2
Course Code Course Title Credit
EEE 321 Digital Signal Processing 3
EEE 322 Digital Signal Processing Laboratory 1
EEE Syllabus | 2019 8
EEE 323 Control Systems 3
EEE 324 Control Systems Laboratory 1
EEE 325 Power System Analysis 3
HUM 321 Engineering Ethics and Environmental Protection 2
Total 13
Level 3 Term 3
Course Code Course Title Credit
EEE 331 Microprocessor and Interfacing 3
EEE 332 Microprocessor and Interfacing Laboratory 1
EEE 335 Power Electronics 3
EEE 336 Power Electronics Laboratory 1
EEE 337 Measurement and Instrumentation 3
EEE 338 Measurement and Instrumentation Laboratory 1
Total 12
Level 4 Term 1
Course Code Course Title Credit
ECO 411 Energy Economics 3
IPE 411 Industrial and Operational Management 3
EEE 414 Electrical Appliances and Services Design
Laboratory 1
EMP 101
HUM 413
Employability 360o
Technology Entrepreneurship 2
EEE 4 Elective I (Major) 3
EEE 400 Capstone Project (Part-1) 1
Total 13
Level 4 Term 2
Course Code Course Title Credit
EEE 4 Elective II (Major) 3
EEE 4 Elective II Laboratory (Major) 1
EEE 4 Elective I (Minor) 3
EEE 4 Elective II (Minor) 3
EEE 4 Elective II Laboratory (Minor) 1
EEE 400 Capstone Project (Part-2) 2
Total 13
Level 4 Term 3
Course Code Course Title Credit
EEE 4 Elective I (Minor) 3
EEE Syllabus | 2019 9
EEE 400 Capstone Project (Part-3) 2
Total 5
Course Contents
EEE 121 Fundamental of Electrical Circuits
Credit(s) 30
Pre-requisite(s) None
Circuit variables voltage current power and energy Voltage and current independent and dependent
sources Circuit elements resistance inductance and capacitance Modeling of practical circuits Ohmrsquos law
and Kirchhoff‟s laws Solution of simple circuits with both dependent and independent sources Series-
parallel resistance circuits and their equivalents Voltage and current divider circuits Delta-Wye
equivalent circuits
Basic Magnetic Circuits Magnetic quantities and variables Field Flux Flux Density Magnetomotive
Force Magnetic Field Strength permeability and B-H Curve reluctance magnetic field strength Laws in
magnetic circuits Ohmrsquos law and Amperersquos circuital law
Definitions of ac voltage current power volt-ampere and various factors (including power peak form
factors etc)
Introduction to sinusoidal steady state analysis Sinusoidal sources phasor impedance admittance
reactance susceptance voltage current power of R L C R-L R-C R-L-C circuits with sinusoidal source
Series - parallel and Delta-Wye simplifications of circuits with R L Cs
EEE 131 Electrical Circuits I
Credit(s) 30
Pre-requisite(s) EEE 121
Techniques of general DC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh-current method Source transformations
Thevenin and Norton equivalents Maximum power transfer Superposition technique Properties of
Inductances and capacitances Series-parallel combinations of inductances and capacitances
Concepts of transient and steady state response with dc source
Techniques of general AC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh current method Source transformations Thevenin and Norton Equivalents Phasor
diagrams Sinusoidal steady state power calculations RMS values Real and reactive power Maximum
power transfer impedance matching Steady state voltage current
EEE 211 Electrical Circuits II
Credit(s) 30
Pre-requisite(s) EEE 131
EEE Syllabus | 2019 10
Circuits with non-sinusoidal excitations power and power factor of ac circuits with multiple sources of
different frequencies Transients in AC circuits Passive Filter Networks basic types Characteristic
impedance and attenuation ladder network low pass high pass filters propagation coefficient and time
delay in filter sections practical composite filters Resonance in AC circuits Series and parallel resonance
and Q factors
Magnetically coupled circuits
Analysis of three phase circuits Three phase supply balanced and unbalanced circuits power calculation
and measurements Power factor improvement
Magnetic circuits Composite series magnetic circuit parallel and series-parallel circuits Comparison
between electrical and magnetic quantities Hysteresis and hysteresis loss Magnetic materials
EEE 212 Electrical Circuits Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Laboratory experiment will be conducted based on the theory taught
EEE 214 Circuit Simulation Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Simulation laboratory based on EEE 131 EEE 211 theory courses
EEE 215 Electronics I
Credit(s) 30
Pre-requisite(s) EEE 211
Semiconductor diodes semiconductor material and properties pn junction diode circuits dc analysis and
models diode circuits AC equivalent circuits other diode types single phase rectification and regulators
zener diode circuits clipper and clamper circuits multiple diode circuits photo diodes and LED circuits
DC power supply MOS Transistors Structure of MOSFET Current-Voltage Characteristics MOS Device
Models DC circuit analysis basic MOFET applications Biasing constant current biasing multistage
MOSFET circuits Junction Field effect transistor (JFET) MOSFET amplifier basic transistor amplifier
configurations-Common-Source Common-Gate Stage Source Follower (common drain) single stage
integrated circuit MOSFET amplifiers multistage amplifiers basic JFET amplifiers Bipolar Junction
transistor (BJT) BJT DC analysis of BJT circuits basic transistor applications biasing multistage circuits
BJT linear amplifiers-basic configurations CE amplifiers AC load lines CC and CB amplifier multistage
amplifiers power consideration Frequency Response Amplifier frequency response system transfer
function frequency response transistor amplifiers with circuit capacitors frequency response-BJT
frequency response- FET high frequency response of transistor circuits Output stages and power
amplifiers power amplifiers power transistors classes of amplifiers Class-A power amplifier Class-AB
push pull complimentary output stage
EEE 221 Electronics II
Credit(s) 30
Pre-requisite(s) EEE 215
EEE Syllabus | 2019 11
Ideal operational amplifier and op-amp circuits Op-amp applications inverting amplifier non-inverting
amplifier summing amplifier differential amplifier logarithmic amplifier operational transconductance
amplifiers exponential amplifier differentiator integrator voltage to current converter voltage follower
and other applications Non-ideality of op-amp Non-ideal op-amp characteristics and its effects Integrated
circuit biasing and active loads BJT current sources FET current sources small signal analysis of active
loads design applications an NMOS current source differential and multistage amplifiers BJT differential
amplifier FET differential amplifier differential amplifier with active load BiCMOS circuits gain stage
and simple output stage BJT operational amplifier circuit Frequency response of amplifiers Poles zeros
and Bode plots amplifier transfer function techniques of determining 3 dB frequencies of amplifier
circuits frequency response of single-stage and cascade amplifiers frequency response of differential
amplifiers Feedback and stability Basic feedback concept feedback topologies voltage(series-shunt)
amplifiers current (shunt-series) amplifiers transconductance (serie-series) amplifiers transresistance
(shuntshunt) amplifiers loop gain stability of feedback circuit frequency compensation Applications and
Design of Integrated Circuits Active filter Oscillators Schmitt trigger Circuits Nonsinusoidal oscillators
and timing circuits integrated power amplifier voltage regulator Design application An active Bandpass
filter
555 Timer IC and its Applications
Introduction to power amplifier classes class A class B class AB class C operation
EEE 222 Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 221
Laboratory experiment will be conducted based on the theory taught
EEE 223 Energy Conversion I
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 211
Transformer principle of operation construction no load and excitation current behavior during loading
leakage flux ideal transformer leakage reactance and equivalent circuit of a transformer equivalent
impedance voltage regulation per unit quantities regulation losses and efficiency determination of
parameters by tests polarity of transformer windings transformer parallel operation
Three phase transformer Construction connection configuration vector group parallel operation power
application etc
Autotransformer instrument transformers
Single Phase Induction Motor operation double revolving field theory starting methods equivalent
circuit torque-speed characteristic and performance calculation
Three phase induction motor rotating magnetic field synchronous speed torque in induction motor
induction motor construction squirrel cage wound rotor Slip and its effect on rotor frequency and voltage
equivalent circuit of an induction motor air gap power mechanical power and developed torque torque
speed characteristic losses efficiency and power factor classification shaping torque speed characteristic
determination of induction motor parameters by tests methods of braking speed control
Induction generator Working principle and operation characteristics voltage build up applications in
wind turbine
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 6
The Department of Electrical and Electronic Engineering of Daffodil International University runs three
terms per year or level The suggested course offering based on the Level and Term for the program of
BSc in Electrical and Electronic Engineering (EEE) is illustrated below
Level 1 Term 1
Course Code Course Title Credit
HUM 111 Functional Bengali Language 2
MAT 111 Differential and Integral Calculus 3
PHY 111 Physics 3
PHY 112 Physics Laboratory 1
CHE 101 Chemistry 3
CHE 112 Chemistry Laboratory 1
Total 13
Level 1 Term 2
Course Code Course Title Credit
EEE 121 Fundamental of Electrical Circuits 3
MAT 121 Complex variable and Vector analysis 3
ACC 121 Financial and Managerial Accounting 2
BDS 101 Bangladesh Studies 2
CE 122 Engineering Drawing 1
Total 11
Level 1 Term 3
Course Code Course Title Credit
MAT 131 Ordinary and Partial Differential Equation 3
MAT 133 Probability and Statistics 3
EEE 131 Electrical Circuit I 3
CSE 131 Computer Programming and Application 3
Total 12
Level 2 Term 1
Course Code Course Title Credit
MAT 211 Linear Algebra and Co-ordinate Geometry 3
AOL 101 Art of Living 2
EEE Syllabus | 2019 7
HUM 211 Sociology
EEE 211 Electrical Circuit II 3
EEE 212 Electrical Circuit Laboratory 1
EEE 214 Circuit Simulation Laboratory 1
EEE 215 Electronics I 3
Total 13
Level 2 Term 2
Course Code Course Title Credit
EEE 221 Electronics II 3
EEE 222 Electronics Laboratory 1
EEE 223 Energy Conversion I 3
MAT 221 Continuous Signals and Linear Systems 3
HUM 221 Professional English 3
Total 13
Level 2 Term 3
Course Code Course Title Credit
EEE 233 Energy Conversion II 3
EEE 234 Energy Conversion Laboratory 1
EEE 235 Electromagnetic Fields and Waves 3
EEE 237 Electrical Properties of Materials 3
ME 231 Basic Mechanical Engineering 3
Total 13
Level 3 Term 1
Course Code Course Title Credit
EEE 311 Digital Electronics 3
EEE 312 Digital Electronics Laboratory 1
EEE 313 Transmission and Distribution of Electric Power 3
EEE 315 Communication Engineering I 3
EEE 316 Communication Engineering Laboratory 1
MAT 318 Numerical Analysis Laboratory 1
Total 12
Level 3 Term 2
Course Code Course Title Credit
EEE 321 Digital Signal Processing 3
EEE 322 Digital Signal Processing Laboratory 1
EEE Syllabus | 2019 8
EEE 323 Control Systems 3
EEE 324 Control Systems Laboratory 1
EEE 325 Power System Analysis 3
HUM 321 Engineering Ethics and Environmental Protection 2
Total 13
Level 3 Term 3
Course Code Course Title Credit
EEE 331 Microprocessor and Interfacing 3
EEE 332 Microprocessor and Interfacing Laboratory 1
EEE 335 Power Electronics 3
EEE 336 Power Electronics Laboratory 1
EEE 337 Measurement and Instrumentation 3
EEE 338 Measurement and Instrumentation Laboratory 1
Total 12
Level 4 Term 1
Course Code Course Title Credit
ECO 411 Energy Economics 3
IPE 411 Industrial and Operational Management 3
EEE 414 Electrical Appliances and Services Design
Laboratory 1
EMP 101
HUM 413
Employability 360o
Technology Entrepreneurship 2
EEE 4 Elective I (Major) 3
EEE 400 Capstone Project (Part-1) 1
Total 13
Level 4 Term 2
Course Code Course Title Credit
EEE 4 Elective II (Major) 3
EEE 4 Elective II Laboratory (Major) 1
EEE 4 Elective I (Minor) 3
EEE 4 Elective II (Minor) 3
EEE 4 Elective II Laboratory (Minor) 1
EEE 400 Capstone Project (Part-2) 2
Total 13
Level 4 Term 3
Course Code Course Title Credit
EEE 4 Elective I (Minor) 3
EEE Syllabus | 2019 9
EEE 400 Capstone Project (Part-3) 2
Total 5
Course Contents
EEE 121 Fundamental of Electrical Circuits
Credit(s) 30
Pre-requisite(s) None
Circuit variables voltage current power and energy Voltage and current independent and dependent
sources Circuit elements resistance inductance and capacitance Modeling of practical circuits Ohmrsquos law
and Kirchhoff‟s laws Solution of simple circuits with both dependent and independent sources Series-
parallel resistance circuits and their equivalents Voltage and current divider circuits Delta-Wye
equivalent circuits
Basic Magnetic Circuits Magnetic quantities and variables Field Flux Flux Density Magnetomotive
Force Magnetic Field Strength permeability and B-H Curve reluctance magnetic field strength Laws in
magnetic circuits Ohmrsquos law and Amperersquos circuital law
Definitions of ac voltage current power volt-ampere and various factors (including power peak form
factors etc)
Introduction to sinusoidal steady state analysis Sinusoidal sources phasor impedance admittance
reactance susceptance voltage current power of R L C R-L R-C R-L-C circuits with sinusoidal source
Series - parallel and Delta-Wye simplifications of circuits with R L Cs
EEE 131 Electrical Circuits I
Credit(s) 30
Pre-requisite(s) EEE 121
Techniques of general DC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh-current method Source transformations
Thevenin and Norton equivalents Maximum power transfer Superposition technique Properties of
Inductances and capacitances Series-parallel combinations of inductances and capacitances
Concepts of transient and steady state response with dc source
Techniques of general AC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh current method Source transformations Thevenin and Norton Equivalents Phasor
diagrams Sinusoidal steady state power calculations RMS values Real and reactive power Maximum
power transfer impedance matching Steady state voltage current
EEE 211 Electrical Circuits II
Credit(s) 30
Pre-requisite(s) EEE 131
EEE Syllabus | 2019 10
Circuits with non-sinusoidal excitations power and power factor of ac circuits with multiple sources of
different frequencies Transients in AC circuits Passive Filter Networks basic types Characteristic
impedance and attenuation ladder network low pass high pass filters propagation coefficient and time
delay in filter sections practical composite filters Resonance in AC circuits Series and parallel resonance
and Q factors
Magnetically coupled circuits
Analysis of three phase circuits Three phase supply balanced and unbalanced circuits power calculation
and measurements Power factor improvement
Magnetic circuits Composite series magnetic circuit parallel and series-parallel circuits Comparison
between electrical and magnetic quantities Hysteresis and hysteresis loss Magnetic materials
EEE 212 Electrical Circuits Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Laboratory experiment will be conducted based on the theory taught
EEE 214 Circuit Simulation Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Simulation laboratory based on EEE 131 EEE 211 theory courses
EEE 215 Electronics I
Credit(s) 30
Pre-requisite(s) EEE 211
Semiconductor diodes semiconductor material and properties pn junction diode circuits dc analysis and
models diode circuits AC equivalent circuits other diode types single phase rectification and regulators
zener diode circuits clipper and clamper circuits multiple diode circuits photo diodes and LED circuits
DC power supply MOS Transistors Structure of MOSFET Current-Voltage Characteristics MOS Device
Models DC circuit analysis basic MOFET applications Biasing constant current biasing multistage
MOSFET circuits Junction Field effect transistor (JFET) MOSFET amplifier basic transistor amplifier
configurations-Common-Source Common-Gate Stage Source Follower (common drain) single stage
integrated circuit MOSFET amplifiers multistage amplifiers basic JFET amplifiers Bipolar Junction
transistor (BJT) BJT DC analysis of BJT circuits basic transistor applications biasing multistage circuits
BJT linear amplifiers-basic configurations CE amplifiers AC load lines CC and CB amplifier multistage
amplifiers power consideration Frequency Response Amplifier frequency response system transfer
function frequency response transistor amplifiers with circuit capacitors frequency response-BJT
frequency response- FET high frequency response of transistor circuits Output stages and power
amplifiers power amplifiers power transistors classes of amplifiers Class-A power amplifier Class-AB
push pull complimentary output stage
EEE 221 Electronics II
Credit(s) 30
Pre-requisite(s) EEE 215
EEE Syllabus | 2019 11
Ideal operational amplifier and op-amp circuits Op-amp applications inverting amplifier non-inverting
amplifier summing amplifier differential amplifier logarithmic amplifier operational transconductance
amplifiers exponential amplifier differentiator integrator voltage to current converter voltage follower
and other applications Non-ideality of op-amp Non-ideal op-amp characteristics and its effects Integrated
circuit biasing and active loads BJT current sources FET current sources small signal analysis of active
loads design applications an NMOS current source differential and multistage amplifiers BJT differential
amplifier FET differential amplifier differential amplifier with active load BiCMOS circuits gain stage
and simple output stage BJT operational amplifier circuit Frequency response of amplifiers Poles zeros
and Bode plots amplifier transfer function techniques of determining 3 dB frequencies of amplifier
circuits frequency response of single-stage and cascade amplifiers frequency response of differential
amplifiers Feedback and stability Basic feedback concept feedback topologies voltage(series-shunt)
amplifiers current (shunt-series) amplifiers transconductance (serie-series) amplifiers transresistance
(shuntshunt) amplifiers loop gain stability of feedback circuit frequency compensation Applications and
Design of Integrated Circuits Active filter Oscillators Schmitt trigger Circuits Nonsinusoidal oscillators
and timing circuits integrated power amplifier voltage regulator Design application An active Bandpass
filter
555 Timer IC and its Applications
Introduction to power amplifier classes class A class B class AB class C operation
EEE 222 Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 221
Laboratory experiment will be conducted based on the theory taught
EEE 223 Energy Conversion I
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 211
Transformer principle of operation construction no load and excitation current behavior during loading
leakage flux ideal transformer leakage reactance and equivalent circuit of a transformer equivalent
impedance voltage regulation per unit quantities regulation losses and efficiency determination of
parameters by tests polarity of transformer windings transformer parallel operation
Three phase transformer Construction connection configuration vector group parallel operation power
application etc
Autotransformer instrument transformers
Single Phase Induction Motor operation double revolving field theory starting methods equivalent
circuit torque-speed characteristic and performance calculation
Three phase induction motor rotating magnetic field synchronous speed torque in induction motor
induction motor construction squirrel cage wound rotor Slip and its effect on rotor frequency and voltage
equivalent circuit of an induction motor air gap power mechanical power and developed torque torque
speed characteristic losses efficiency and power factor classification shaping torque speed characteristic
determination of induction motor parameters by tests methods of braking speed control
Induction generator Working principle and operation characteristics voltage build up applications in
wind turbine
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 7
HUM 211 Sociology
EEE 211 Electrical Circuit II 3
EEE 212 Electrical Circuit Laboratory 1
EEE 214 Circuit Simulation Laboratory 1
EEE 215 Electronics I 3
Total 13
Level 2 Term 2
Course Code Course Title Credit
EEE 221 Electronics II 3
EEE 222 Electronics Laboratory 1
EEE 223 Energy Conversion I 3
MAT 221 Continuous Signals and Linear Systems 3
HUM 221 Professional English 3
Total 13
Level 2 Term 3
Course Code Course Title Credit
EEE 233 Energy Conversion II 3
EEE 234 Energy Conversion Laboratory 1
EEE 235 Electromagnetic Fields and Waves 3
EEE 237 Electrical Properties of Materials 3
ME 231 Basic Mechanical Engineering 3
Total 13
Level 3 Term 1
Course Code Course Title Credit
EEE 311 Digital Electronics 3
EEE 312 Digital Electronics Laboratory 1
EEE 313 Transmission and Distribution of Electric Power 3
EEE 315 Communication Engineering I 3
EEE 316 Communication Engineering Laboratory 1
MAT 318 Numerical Analysis Laboratory 1
Total 12
Level 3 Term 2
Course Code Course Title Credit
EEE 321 Digital Signal Processing 3
EEE 322 Digital Signal Processing Laboratory 1
EEE Syllabus | 2019 8
EEE 323 Control Systems 3
EEE 324 Control Systems Laboratory 1
EEE 325 Power System Analysis 3
HUM 321 Engineering Ethics and Environmental Protection 2
Total 13
Level 3 Term 3
Course Code Course Title Credit
EEE 331 Microprocessor and Interfacing 3
EEE 332 Microprocessor and Interfacing Laboratory 1
EEE 335 Power Electronics 3
EEE 336 Power Electronics Laboratory 1
EEE 337 Measurement and Instrumentation 3
EEE 338 Measurement and Instrumentation Laboratory 1
Total 12
Level 4 Term 1
Course Code Course Title Credit
ECO 411 Energy Economics 3
IPE 411 Industrial and Operational Management 3
EEE 414 Electrical Appliances and Services Design
Laboratory 1
EMP 101
HUM 413
Employability 360o
Technology Entrepreneurship 2
EEE 4 Elective I (Major) 3
EEE 400 Capstone Project (Part-1) 1
Total 13
Level 4 Term 2
Course Code Course Title Credit
EEE 4 Elective II (Major) 3
EEE 4 Elective II Laboratory (Major) 1
EEE 4 Elective I (Minor) 3
EEE 4 Elective II (Minor) 3
EEE 4 Elective II Laboratory (Minor) 1
EEE 400 Capstone Project (Part-2) 2
Total 13
Level 4 Term 3
Course Code Course Title Credit
EEE 4 Elective I (Minor) 3
EEE Syllabus | 2019 9
EEE 400 Capstone Project (Part-3) 2
Total 5
Course Contents
EEE 121 Fundamental of Electrical Circuits
Credit(s) 30
Pre-requisite(s) None
Circuit variables voltage current power and energy Voltage and current independent and dependent
sources Circuit elements resistance inductance and capacitance Modeling of practical circuits Ohmrsquos law
and Kirchhoff‟s laws Solution of simple circuits with both dependent and independent sources Series-
parallel resistance circuits and their equivalents Voltage and current divider circuits Delta-Wye
equivalent circuits
Basic Magnetic Circuits Magnetic quantities and variables Field Flux Flux Density Magnetomotive
Force Magnetic Field Strength permeability and B-H Curve reluctance magnetic field strength Laws in
magnetic circuits Ohmrsquos law and Amperersquos circuital law
Definitions of ac voltage current power volt-ampere and various factors (including power peak form
factors etc)
Introduction to sinusoidal steady state analysis Sinusoidal sources phasor impedance admittance
reactance susceptance voltage current power of R L C R-L R-C R-L-C circuits with sinusoidal source
Series - parallel and Delta-Wye simplifications of circuits with R L Cs
EEE 131 Electrical Circuits I
Credit(s) 30
Pre-requisite(s) EEE 121
Techniques of general DC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh-current method Source transformations
Thevenin and Norton equivalents Maximum power transfer Superposition technique Properties of
Inductances and capacitances Series-parallel combinations of inductances and capacitances
Concepts of transient and steady state response with dc source
Techniques of general AC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh current method Source transformations Thevenin and Norton Equivalents Phasor
diagrams Sinusoidal steady state power calculations RMS values Real and reactive power Maximum
power transfer impedance matching Steady state voltage current
EEE 211 Electrical Circuits II
Credit(s) 30
Pre-requisite(s) EEE 131
EEE Syllabus | 2019 10
Circuits with non-sinusoidal excitations power and power factor of ac circuits with multiple sources of
different frequencies Transients in AC circuits Passive Filter Networks basic types Characteristic
impedance and attenuation ladder network low pass high pass filters propagation coefficient and time
delay in filter sections practical composite filters Resonance in AC circuits Series and parallel resonance
and Q factors
Magnetically coupled circuits
Analysis of three phase circuits Three phase supply balanced and unbalanced circuits power calculation
and measurements Power factor improvement
Magnetic circuits Composite series magnetic circuit parallel and series-parallel circuits Comparison
between electrical and magnetic quantities Hysteresis and hysteresis loss Magnetic materials
EEE 212 Electrical Circuits Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Laboratory experiment will be conducted based on the theory taught
EEE 214 Circuit Simulation Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Simulation laboratory based on EEE 131 EEE 211 theory courses
EEE 215 Electronics I
Credit(s) 30
Pre-requisite(s) EEE 211
Semiconductor diodes semiconductor material and properties pn junction diode circuits dc analysis and
models diode circuits AC equivalent circuits other diode types single phase rectification and regulators
zener diode circuits clipper and clamper circuits multiple diode circuits photo diodes and LED circuits
DC power supply MOS Transistors Structure of MOSFET Current-Voltage Characteristics MOS Device
Models DC circuit analysis basic MOFET applications Biasing constant current biasing multistage
MOSFET circuits Junction Field effect transistor (JFET) MOSFET amplifier basic transistor amplifier
configurations-Common-Source Common-Gate Stage Source Follower (common drain) single stage
integrated circuit MOSFET amplifiers multistage amplifiers basic JFET amplifiers Bipolar Junction
transistor (BJT) BJT DC analysis of BJT circuits basic transistor applications biasing multistage circuits
BJT linear amplifiers-basic configurations CE amplifiers AC load lines CC and CB amplifier multistage
amplifiers power consideration Frequency Response Amplifier frequency response system transfer
function frequency response transistor amplifiers with circuit capacitors frequency response-BJT
frequency response- FET high frequency response of transistor circuits Output stages and power
amplifiers power amplifiers power transistors classes of amplifiers Class-A power amplifier Class-AB
push pull complimentary output stage
EEE 221 Electronics II
Credit(s) 30
Pre-requisite(s) EEE 215
EEE Syllabus | 2019 11
Ideal operational amplifier and op-amp circuits Op-amp applications inverting amplifier non-inverting
amplifier summing amplifier differential amplifier logarithmic amplifier operational transconductance
amplifiers exponential amplifier differentiator integrator voltage to current converter voltage follower
and other applications Non-ideality of op-amp Non-ideal op-amp characteristics and its effects Integrated
circuit biasing and active loads BJT current sources FET current sources small signal analysis of active
loads design applications an NMOS current source differential and multistage amplifiers BJT differential
amplifier FET differential amplifier differential amplifier with active load BiCMOS circuits gain stage
and simple output stage BJT operational amplifier circuit Frequency response of amplifiers Poles zeros
and Bode plots amplifier transfer function techniques of determining 3 dB frequencies of amplifier
circuits frequency response of single-stage and cascade amplifiers frequency response of differential
amplifiers Feedback and stability Basic feedback concept feedback topologies voltage(series-shunt)
amplifiers current (shunt-series) amplifiers transconductance (serie-series) amplifiers transresistance
(shuntshunt) amplifiers loop gain stability of feedback circuit frequency compensation Applications and
Design of Integrated Circuits Active filter Oscillators Schmitt trigger Circuits Nonsinusoidal oscillators
and timing circuits integrated power amplifier voltage regulator Design application An active Bandpass
filter
555 Timer IC and its Applications
Introduction to power amplifier classes class A class B class AB class C operation
EEE 222 Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 221
Laboratory experiment will be conducted based on the theory taught
EEE 223 Energy Conversion I
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 211
Transformer principle of operation construction no load and excitation current behavior during loading
leakage flux ideal transformer leakage reactance and equivalent circuit of a transformer equivalent
impedance voltage regulation per unit quantities regulation losses and efficiency determination of
parameters by tests polarity of transformer windings transformer parallel operation
Three phase transformer Construction connection configuration vector group parallel operation power
application etc
Autotransformer instrument transformers
Single Phase Induction Motor operation double revolving field theory starting methods equivalent
circuit torque-speed characteristic and performance calculation
Three phase induction motor rotating magnetic field synchronous speed torque in induction motor
induction motor construction squirrel cage wound rotor Slip and its effect on rotor frequency and voltage
equivalent circuit of an induction motor air gap power mechanical power and developed torque torque
speed characteristic losses efficiency and power factor classification shaping torque speed characteristic
determination of induction motor parameters by tests methods of braking speed control
Induction generator Working principle and operation characteristics voltage build up applications in
wind turbine
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 8
EEE 323 Control Systems 3
EEE 324 Control Systems Laboratory 1
EEE 325 Power System Analysis 3
HUM 321 Engineering Ethics and Environmental Protection 2
Total 13
Level 3 Term 3
Course Code Course Title Credit
EEE 331 Microprocessor and Interfacing 3
EEE 332 Microprocessor and Interfacing Laboratory 1
EEE 335 Power Electronics 3
EEE 336 Power Electronics Laboratory 1
EEE 337 Measurement and Instrumentation 3
EEE 338 Measurement and Instrumentation Laboratory 1
Total 12
Level 4 Term 1
Course Code Course Title Credit
ECO 411 Energy Economics 3
IPE 411 Industrial and Operational Management 3
EEE 414 Electrical Appliances and Services Design
Laboratory 1
EMP 101
HUM 413
Employability 360o
Technology Entrepreneurship 2
EEE 4 Elective I (Major) 3
EEE 400 Capstone Project (Part-1) 1
Total 13
Level 4 Term 2
Course Code Course Title Credit
EEE 4 Elective II (Major) 3
EEE 4 Elective II Laboratory (Major) 1
EEE 4 Elective I (Minor) 3
EEE 4 Elective II (Minor) 3
EEE 4 Elective II Laboratory (Minor) 1
EEE 400 Capstone Project (Part-2) 2
Total 13
Level 4 Term 3
Course Code Course Title Credit
EEE 4 Elective I (Minor) 3
EEE Syllabus | 2019 9
EEE 400 Capstone Project (Part-3) 2
Total 5
Course Contents
EEE 121 Fundamental of Electrical Circuits
Credit(s) 30
Pre-requisite(s) None
Circuit variables voltage current power and energy Voltage and current independent and dependent
sources Circuit elements resistance inductance and capacitance Modeling of practical circuits Ohmrsquos law
and Kirchhoff‟s laws Solution of simple circuits with both dependent and independent sources Series-
parallel resistance circuits and their equivalents Voltage and current divider circuits Delta-Wye
equivalent circuits
Basic Magnetic Circuits Magnetic quantities and variables Field Flux Flux Density Magnetomotive
Force Magnetic Field Strength permeability and B-H Curve reluctance magnetic field strength Laws in
magnetic circuits Ohmrsquos law and Amperersquos circuital law
Definitions of ac voltage current power volt-ampere and various factors (including power peak form
factors etc)
Introduction to sinusoidal steady state analysis Sinusoidal sources phasor impedance admittance
reactance susceptance voltage current power of R L C R-L R-C R-L-C circuits with sinusoidal source
Series - parallel and Delta-Wye simplifications of circuits with R L Cs
EEE 131 Electrical Circuits I
Credit(s) 30
Pre-requisite(s) EEE 121
Techniques of general DC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh-current method Source transformations
Thevenin and Norton equivalents Maximum power transfer Superposition technique Properties of
Inductances and capacitances Series-parallel combinations of inductances and capacitances
Concepts of transient and steady state response with dc source
Techniques of general AC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh current method Source transformations Thevenin and Norton Equivalents Phasor
diagrams Sinusoidal steady state power calculations RMS values Real and reactive power Maximum
power transfer impedance matching Steady state voltage current
EEE 211 Electrical Circuits II
Credit(s) 30
Pre-requisite(s) EEE 131
EEE Syllabus | 2019 10
Circuits with non-sinusoidal excitations power and power factor of ac circuits with multiple sources of
different frequencies Transients in AC circuits Passive Filter Networks basic types Characteristic
impedance and attenuation ladder network low pass high pass filters propagation coefficient and time
delay in filter sections practical composite filters Resonance in AC circuits Series and parallel resonance
and Q factors
Magnetically coupled circuits
Analysis of three phase circuits Three phase supply balanced and unbalanced circuits power calculation
and measurements Power factor improvement
Magnetic circuits Composite series magnetic circuit parallel and series-parallel circuits Comparison
between electrical and magnetic quantities Hysteresis and hysteresis loss Magnetic materials
EEE 212 Electrical Circuits Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Laboratory experiment will be conducted based on the theory taught
EEE 214 Circuit Simulation Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Simulation laboratory based on EEE 131 EEE 211 theory courses
EEE 215 Electronics I
Credit(s) 30
Pre-requisite(s) EEE 211
Semiconductor diodes semiconductor material and properties pn junction diode circuits dc analysis and
models diode circuits AC equivalent circuits other diode types single phase rectification and regulators
zener diode circuits clipper and clamper circuits multiple diode circuits photo diodes and LED circuits
DC power supply MOS Transistors Structure of MOSFET Current-Voltage Characteristics MOS Device
Models DC circuit analysis basic MOFET applications Biasing constant current biasing multistage
MOSFET circuits Junction Field effect transistor (JFET) MOSFET amplifier basic transistor amplifier
configurations-Common-Source Common-Gate Stage Source Follower (common drain) single stage
integrated circuit MOSFET amplifiers multistage amplifiers basic JFET amplifiers Bipolar Junction
transistor (BJT) BJT DC analysis of BJT circuits basic transistor applications biasing multistage circuits
BJT linear amplifiers-basic configurations CE amplifiers AC load lines CC and CB amplifier multistage
amplifiers power consideration Frequency Response Amplifier frequency response system transfer
function frequency response transistor amplifiers with circuit capacitors frequency response-BJT
frequency response- FET high frequency response of transistor circuits Output stages and power
amplifiers power amplifiers power transistors classes of amplifiers Class-A power amplifier Class-AB
push pull complimentary output stage
EEE 221 Electronics II
Credit(s) 30
Pre-requisite(s) EEE 215
EEE Syllabus | 2019 11
Ideal operational amplifier and op-amp circuits Op-amp applications inverting amplifier non-inverting
amplifier summing amplifier differential amplifier logarithmic amplifier operational transconductance
amplifiers exponential amplifier differentiator integrator voltage to current converter voltage follower
and other applications Non-ideality of op-amp Non-ideal op-amp characteristics and its effects Integrated
circuit biasing and active loads BJT current sources FET current sources small signal analysis of active
loads design applications an NMOS current source differential and multistage amplifiers BJT differential
amplifier FET differential amplifier differential amplifier with active load BiCMOS circuits gain stage
and simple output stage BJT operational amplifier circuit Frequency response of amplifiers Poles zeros
and Bode plots amplifier transfer function techniques of determining 3 dB frequencies of amplifier
circuits frequency response of single-stage and cascade amplifiers frequency response of differential
amplifiers Feedback and stability Basic feedback concept feedback topologies voltage(series-shunt)
amplifiers current (shunt-series) amplifiers transconductance (serie-series) amplifiers transresistance
(shuntshunt) amplifiers loop gain stability of feedback circuit frequency compensation Applications and
Design of Integrated Circuits Active filter Oscillators Schmitt trigger Circuits Nonsinusoidal oscillators
and timing circuits integrated power amplifier voltage regulator Design application An active Bandpass
filter
555 Timer IC and its Applications
Introduction to power amplifier classes class A class B class AB class C operation
EEE 222 Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 221
Laboratory experiment will be conducted based on the theory taught
EEE 223 Energy Conversion I
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 211
Transformer principle of operation construction no load and excitation current behavior during loading
leakage flux ideal transformer leakage reactance and equivalent circuit of a transformer equivalent
impedance voltage regulation per unit quantities regulation losses and efficiency determination of
parameters by tests polarity of transformer windings transformer parallel operation
Three phase transformer Construction connection configuration vector group parallel operation power
application etc
Autotransformer instrument transformers
Single Phase Induction Motor operation double revolving field theory starting methods equivalent
circuit torque-speed characteristic and performance calculation
Three phase induction motor rotating magnetic field synchronous speed torque in induction motor
induction motor construction squirrel cage wound rotor Slip and its effect on rotor frequency and voltage
equivalent circuit of an induction motor air gap power mechanical power and developed torque torque
speed characteristic losses efficiency and power factor classification shaping torque speed characteristic
determination of induction motor parameters by tests methods of braking speed control
Induction generator Working principle and operation characteristics voltage build up applications in
wind turbine
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 9
EEE 400 Capstone Project (Part-3) 2
Total 5
Course Contents
EEE 121 Fundamental of Electrical Circuits
Credit(s) 30
Pre-requisite(s) None
Circuit variables voltage current power and energy Voltage and current independent and dependent
sources Circuit elements resistance inductance and capacitance Modeling of practical circuits Ohmrsquos law
and Kirchhoff‟s laws Solution of simple circuits with both dependent and independent sources Series-
parallel resistance circuits and their equivalents Voltage and current divider circuits Delta-Wye
equivalent circuits
Basic Magnetic Circuits Magnetic quantities and variables Field Flux Flux Density Magnetomotive
Force Magnetic Field Strength permeability and B-H Curve reluctance magnetic field strength Laws in
magnetic circuits Ohmrsquos law and Amperersquos circuital law
Definitions of ac voltage current power volt-ampere and various factors (including power peak form
factors etc)
Introduction to sinusoidal steady state analysis Sinusoidal sources phasor impedance admittance
reactance susceptance voltage current power of R L C R-L R-C R-L-C circuits with sinusoidal source
Series - parallel and Delta-Wye simplifications of circuits with R L Cs
EEE 131 Electrical Circuits I
Credit(s) 30
Pre-requisite(s) EEE 121
Techniques of general DC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh-current method Source transformations
Thevenin and Norton equivalents Maximum power transfer Superposition technique Properties of
Inductances and capacitances Series-parallel combinations of inductances and capacitances
Concepts of transient and steady state response with dc source
Techniques of general AC circuit analysis (containing both independent and dependent sources) Node-
voltage method Mesh current method Source transformations Thevenin and Norton Equivalents Phasor
diagrams Sinusoidal steady state power calculations RMS values Real and reactive power Maximum
power transfer impedance matching Steady state voltage current
EEE 211 Electrical Circuits II
Credit(s) 30
Pre-requisite(s) EEE 131
EEE Syllabus | 2019 10
Circuits with non-sinusoidal excitations power and power factor of ac circuits with multiple sources of
different frequencies Transients in AC circuits Passive Filter Networks basic types Characteristic
impedance and attenuation ladder network low pass high pass filters propagation coefficient and time
delay in filter sections practical composite filters Resonance in AC circuits Series and parallel resonance
and Q factors
Magnetically coupled circuits
Analysis of three phase circuits Three phase supply balanced and unbalanced circuits power calculation
and measurements Power factor improvement
Magnetic circuits Composite series magnetic circuit parallel and series-parallel circuits Comparison
between electrical and magnetic quantities Hysteresis and hysteresis loss Magnetic materials
EEE 212 Electrical Circuits Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Laboratory experiment will be conducted based on the theory taught
EEE 214 Circuit Simulation Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Simulation laboratory based on EEE 131 EEE 211 theory courses
EEE 215 Electronics I
Credit(s) 30
Pre-requisite(s) EEE 211
Semiconductor diodes semiconductor material and properties pn junction diode circuits dc analysis and
models diode circuits AC equivalent circuits other diode types single phase rectification and regulators
zener diode circuits clipper and clamper circuits multiple diode circuits photo diodes and LED circuits
DC power supply MOS Transistors Structure of MOSFET Current-Voltage Characteristics MOS Device
Models DC circuit analysis basic MOFET applications Biasing constant current biasing multistage
MOSFET circuits Junction Field effect transistor (JFET) MOSFET amplifier basic transistor amplifier
configurations-Common-Source Common-Gate Stage Source Follower (common drain) single stage
integrated circuit MOSFET amplifiers multistage amplifiers basic JFET amplifiers Bipolar Junction
transistor (BJT) BJT DC analysis of BJT circuits basic transistor applications biasing multistage circuits
BJT linear amplifiers-basic configurations CE amplifiers AC load lines CC and CB amplifier multistage
amplifiers power consideration Frequency Response Amplifier frequency response system transfer
function frequency response transistor amplifiers with circuit capacitors frequency response-BJT
frequency response- FET high frequency response of transistor circuits Output stages and power
amplifiers power amplifiers power transistors classes of amplifiers Class-A power amplifier Class-AB
push pull complimentary output stage
EEE 221 Electronics II
Credit(s) 30
Pre-requisite(s) EEE 215
EEE Syllabus | 2019 11
Ideal operational amplifier and op-amp circuits Op-amp applications inverting amplifier non-inverting
amplifier summing amplifier differential amplifier logarithmic amplifier operational transconductance
amplifiers exponential amplifier differentiator integrator voltage to current converter voltage follower
and other applications Non-ideality of op-amp Non-ideal op-amp characteristics and its effects Integrated
circuit biasing and active loads BJT current sources FET current sources small signal analysis of active
loads design applications an NMOS current source differential and multistage amplifiers BJT differential
amplifier FET differential amplifier differential amplifier with active load BiCMOS circuits gain stage
and simple output stage BJT operational amplifier circuit Frequency response of amplifiers Poles zeros
and Bode plots amplifier transfer function techniques of determining 3 dB frequencies of amplifier
circuits frequency response of single-stage and cascade amplifiers frequency response of differential
amplifiers Feedback and stability Basic feedback concept feedback topologies voltage(series-shunt)
amplifiers current (shunt-series) amplifiers transconductance (serie-series) amplifiers transresistance
(shuntshunt) amplifiers loop gain stability of feedback circuit frequency compensation Applications and
Design of Integrated Circuits Active filter Oscillators Schmitt trigger Circuits Nonsinusoidal oscillators
and timing circuits integrated power amplifier voltage regulator Design application An active Bandpass
filter
555 Timer IC and its Applications
Introduction to power amplifier classes class A class B class AB class C operation
EEE 222 Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 221
Laboratory experiment will be conducted based on the theory taught
EEE 223 Energy Conversion I
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 211
Transformer principle of operation construction no load and excitation current behavior during loading
leakage flux ideal transformer leakage reactance and equivalent circuit of a transformer equivalent
impedance voltage regulation per unit quantities regulation losses and efficiency determination of
parameters by tests polarity of transformer windings transformer parallel operation
Three phase transformer Construction connection configuration vector group parallel operation power
application etc
Autotransformer instrument transformers
Single Phase Induction Motor operation double revolving field theory starting methods equivalent
circuit torque-speed characteristic and performance calculation
Three phase induction motor rotating magnetic field synchronous speed torque in induction motor
induction motor construction squirrel cage wound rotor Slip and its effect on rotor frequency and voltage
equivalent circuit of an induction motor air gap power mechanical power and developed torque torque
speed characteristic losses efficiency and power factor classification shaping torque speed characteristic
determination of induction motor parameters by tests methods of braking speed control
Induction generator Working principle and operation characteristics voltage build up applications in
wind turbine
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 10
Circuits with non-sinusoidal excitations power and power factor of ac circuits with multiple sources of
different frequencies Transients in AC circuits Passive Filter Networks basic types Characteristic
impedance and attenuation ladder network low pass high pass filters propagation coefficient and time
delay in filter sections practical composite filters Resonance in AC circuits Series and parallel resonance
and Q factors
Magnetically coupled circuits
Analysis of three phase circuits Three phase supply balanced and unbalanced circuits power calculation
and measurements Power factor improvement
Magnetic circuits Composite series magnetic circuit parallel and series-parallel circuits Comparison
between electrical and magnetic quantities Hysteresis and hysteresis loss Magnetic materials
EEE 212 Electrical Circuits Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Laboratory experiment will be conducted based on the theory taught
EEE 214 Circuit Simulation Laboratory
Credit(s) 10
Pre-requisite(s) EEE 131
Simulation laboratory based on EEE 131 EEE 211 theory courses
EEE 215 Electronics I
Credit(s) 30
Pre-requisite(s) EEE 211
Semiconductor diodes semiconductor material and properties pn junction diode circuits dc analysis and
models diode circuits AC equivalent circuits other diode types single phase rectification and regulators
zener diode circuits clipper and clamper circuits multiple diode circuits photo diodes and LED circuits
DC power supply MOS Transistors Structure of MOSFET Current-Voltage Characteristics MOS Device
Models DC circuit analysis basic MOFET applications Biasing constant current biasing multistage
MOSFET circuits Junction Field effect transistor (JFET) MOSFET amplifier basic transistor amplifier
configurations-Common-Source Common-Gate Stage Source Follower (common drain) single stage
integrated circuit MOSFET amplifiers multistage amplifiers basic JFET amplifiers Bipolar Junction
transistor (BJT) BJT DC analysis of BJT circuits basic transistor applications biasing multistage circuits
BJT linear amplifiers-basic configurations CE amplifiers AC load lines CC and CB amplifier multistage
amplifiers power consideration Frequency Response Amplifier frequency response system transfer
function frequency response transistor amplifiers with circuit capacitors frequency response-BJT
frequency response- FET high frequency response of transistor circuits Output stages and power
amplifiers power amplifiers power transistors classes of amplifiers Class-A power amplifier Class-AB
push pull complimentary output stage
EEE 221 Electronics II
Credit(s) 30
Pre-requisite(s) EEE 215
EEE Syllabus | 2019 11
Ideal operational amplifier and op-amp circuits Op-amp applications inverting amplifier non-inverting
amplifier summing amplifier differential amplifier logarithmic amplifier operational transconductance
amplifiers exponential amplifier differentiator integrator voltage to current converter voltage follower
and other applications Non-ideality of op-amp Non-ideal op-amp characteristics and its effects Integrated
circuit biasing and active loads BJT current sources FET current sources small signal analysis of active
loads design applications an NMOS current source differential and multistage amplifiers BJT differential
amplifier FET differential amplifier differential amplifier with active load BiCMOS circuits gain stage
and simple output stage BJT operational amplifier circuit Frequency response of amplifiers Poles zeros
and Bode plots amplifier transfer function techniques of determining 3 dB frequencies of amplifier
circuits frequency response of single-stage and cascade amplifiers frequency response of differential
amplifiers Feedback and stability Basic feedback concept feedback topologies voltage(series-shunt)
amplifiers current (shunt-series) amplifiers transconductance (serie-series) amplifiers transresistance
(shuntshunt) amplifiers loop gain stability of feedback circuit frequency compensation Applications and
Design of Integrated Circuits Active filter Oscillators Schmitt trigger Circuits Nonsinusoidal oscillators
and timing circuits integrated power amplifier voltage regulator Design application An active Bandpass
filter
555 Timer IC and its Applications
Introduction to power amplifier classes class A class B class AB class C operation
EEE 222 Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 221
Laboratory experiment will be conducted based on the theory taught
EEE 223 Energy Conversion I
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 211
Transformer principle of operation construction no load and excitation current behavior during loading
leakage flux ideal transformer leakage reactance and equivalent circuit of a transformer equivalent
impedance voltage regulation per unit quantities regulation losses and efficiency determination of
parameters by tests polarity of transformer windings transformer parallel operation
Three phase transformer Construction connection configuration vector group parallel operation power
application etc
Autotransformer instrument transformers
Single Phase Induction Motor operation double revolving field theory starting methods equivalent
circuit torque-speed characteristic and performance calculation
Three phase induction motor rotating magnetic field synchronous speed torque in induction motor
induction motor construction squirrel cage wound rotor Slip and its effect on rotor frequency and voltage
equivalent circuit of an induction motor air gap power mechanical power and developed torque torque
speed characteristic losses efficiency and power factor classification shaping torque speed characteristic
determination of induction motor parameters by tests methods of braking speed control
Induction generator Working principle and operation characteristics voltage build up applications in
wind turbine
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 11
Ideal operational amplifier and op-amp circuits Op-amp applications inverting amplifier non-inverting
amplifier summing amplifier differential amplifier logarithmic amplifier operational transconductance
amplifiers exponential amplifier differentiator integrator voltage to current converter voltage follower
and other applications Non-ideality of op-amp Non-ideal op-amp characteristics and its effects Integrated
circuit biasing and active loads BJT current sources FET current sources small signal analysis of active
loads design applications an NMOS current source differential and multistage amplifiers BJT differential
amplifier FET differential amplifier differential amplifier with active load BiCMOS circuits gain stage
and simple output stage BJT operational amplifier circuit Frequency response of amplifiers Poles zeros
and Bode plots amplifier transfer function techniques of determining 3 dB frequencies of amplifier
circuits frequency response of single-stage and cascade amplifiers frequency response of differential
amplifiers Feedback and stability Basic feedback concept feedback topologies voltage(series-shunt)
amplifiers current (shunt-series) amplifiers transconductance (serie-series) amplifiers transresistance
(shuntshunt) amplifiers loop gain stability of feedback circuit frequency compensation Applications and
Design of Integrated Circuits Active filter Oscillators Schmitt trigger Circuits Nonsinusoidal oscillators
and timing circuits integrated power amplifier voltage regulator Design application An active Bandpass
filter
555 Timer IC and its Applications
Introduction to power amplifier classes class A class B class AB class C operation
EEE 222 Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 221
Laboratory experiment will be conducted based on the theory taught
EEE 223 Energy Conversion I
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 211
Transformer principle of operation construction no load and excitation current behavior during loading
leakage flux ideal transformer leakage reactance and equivalent circuit of a transformer equivalent
impedance voltage regulation per unit quantities regulation losses and efficiency determination of
parameters by tests polarity of transformer windings transformer parallel operation
Three phase transformer Construction connection configuration vector group parallel operation power
application etc
Autotransformer instrument transformers
Single Phase Induction Motor operation double revolving field theory starting methods equivalent
circuit torque-speed characteristic and performance calculation
Three phase induction motor rotating magnetic field synchronous speed torque in induction motor
induction motor construction squirrel cage wound rotor Slip and its effect on rotor frequency and voltage
equivalent circuit of an induction motor air gap power mechanical power and developed torque torque
speed characteristic losses efficiency and power factor classification shaping torque speed characteristic
determination of induction motor parameters by tests methods of braking speed control
Induction generator Working principle and operation characteristics voltage build up applications in
wind turbine
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 12
EEE 233 Energy Conversion II
Credit(s) 30
Pre-requisite(s) EEE 223
Synchronous generator construction armature (stator) and rotating field (exciter) excitation system with
brushes and brushless excitation system cooling generated voltage equation of distributed short pitched
armature winding armature winding connections and harmonic cancellation in distributed short pitched
winding equivalent circuit synchronous impedance generated voltage and terminal voltage phasor
diagram voltage regulation with different power factor type loads determination of synchronous
impedance by tests phasor diagram equation of developed power and torque of synchronous machines
Parallel operation of generators requirement of parallel operation conditions synchronizing effect of
synchronizing current hunting and oscillation synchronoscope phase sequence indicator load
distribution of alternators in parallel droop setting frequency control voltage control house diagrams
Synchronous Motors construction operation starting effect of variation of load at normal excitation
effect of variation of excitations V curves inverted V curves and compounding curves power factor
adjustment synchronous capacitor and power factor correction synchronous condenser
DC Generator (DG) principle of operation constructional features characteristics of various generators
build-up process armature reaction losses in dc generator voltage regulation
DC motors principle of operation constructional features back emf and torque equations armature
reaction and its effect on motor performance compensating winding problems of commutation and their
mitigations types of dc motors and their torque speed characteristics starting and speed control of dc
motors applications of different types of dc motor
EEE 234 Energy Conversion Laboratory
Credit(s) 10
Pre-requisite(s) EEE 223
Laboratory experiment will be conducted based on the theory taught
EEE 235 Electromagnetic Fields and Waves
Credit(s) 30
Pre-requisite(s) MAT 121 PHY 102
Electrostatics Coulombs law force electric field intensity electrical flux density Gausss Law with
application Divergence of an Electrostatic Field Electrostatic potential Electric Dipole boundary
conditions in Electrostatics The use of images Laplaces and Poissons equations energy of an electrostatic
system
Magnetostatics Concepts of magnetic field Amperes law Stokes Theorem Vector magnetic potential
Magnetic Dipole Energy of a static Magnetic Field Completeness of Specification of Electric and
Magnetic Fields
Curvilinear co-ordinates rectangular cylindrical and spherical coordinates
Solutions to static field problems Graphical field mapping with applications solution to Laplace equations
rectangular cylindrical and spherical harmonics with applications
Maxwells equations Voltages induced by changing Magnetic Fields Continuity of charge the concept of
displacement current physical pictures of displacement current Maxwells Equations in Differential
Equation form in Large Scale form and for the time periodic case
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 13
Poyntings Theorem for Energy relations in an Electromagnetic Field Application of Maxwells Equations
in Wave Propagation Application of Maxwells Equations in Penetration of Electromagnetic Fields into a
Good Conductor
Boundary Conditions for Time Varying systems Wave Propagation Potentials used with varying charges
and currents The Retarded Potential concepts
Maxwells equations in different coordinate systems
Circuit Concepts and Impedance Elements
Skin Effect and Internal Impedance Internal Impedance of a Plane conductor Power Loss in a plane
conductor
Uniform Plane waves in a Perfect Dielectric Polarization of Plane Waves Waves in Imperfect Dielectrics
and Conductors Reflection of Normally Incident Plane Waves from perfect conductors Transmission line
analogy of wave propagation Normal Incidence on a Dielectric Reflection Problems with several
dielectrics Incidences at any angle on perfect conductors Phase velocity and impedance for waves at
oblique incidence incidence at any angle on dielectrics total reflection Brewster angle
EEE 237 Electrical Properties of Materials
Credit(s) 30
Pre-requisite(s) PHY 102 CHE 101
Crystal structures Types of crystals lattice and basis Bravais lattice and Miller indices
Classical theory of electrical and thermal conduction Scattering mobility and resistivity temperature
dependence of metal resistivity Mathiessens rule Hall effect and thermal conductivity
Introduction to quantum mechanics Wave nature of electrons Schrodingers equation one-dimensional
quantum problems- infinite quantum well potential step and potential barrier Heisenbergss uncertainty
principle and quantum box
Band theory of solids Band theory from molecular orbital Bloch theorem Kronig-Penny model effective
mass density-of-states Carrier statistics Maxwell-Boltzmann and Fermi-Dirac distributions Fermi
energy Modern theory of metals Determination of Fermi energy and average energy of electrons classical
and quantum mechanical calculation of specific heat
Dielectric properties of materials Dielectric constant polarization- electronic ionic and orientational
internal field Clausius-Mosotti equation spontaneous polarization frequency dependence of dielectric
constant dielectric loss and piezoelectricity
Magnetic properties of materials Magnetic moment magnetization and relative permitivity different types
of magnetic materials origin of ferromagnetism and magnetic domains
Introduction to superconductivity Zero resistance and Meissner effect Type I and Type II superconductors
and critical current density
EEE 311 Digital Electronics
Credit(s) 30
Pre-requisite(s) None
Number systems and codes Boolean algebra Different types of logic gates and their truth tables
Combinational circuit design and minimization techniques Arithmetic and data handling logic circuits
such as adder subtractor CLA adder etc Encoder and decoder priority encoder multiplexer and de-
multiplexer magnitude comparator
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 14
MOSFET Digital circuits NMOS inverter CMOS inverter CMOS logic circuits Clocked CMOS logic
circuits transmission gates sequential logic circuits BJT digital circuits ECL TTL STTL BiCMOS
Design of sequential circuits flip-flops counter register Finite state machine Moore and Melay machine
EEE 312 Digital Electronics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught
EEE 313 Transmission and Distribution of Electric Power
Credit(s) 30
Pre-requisite(s) None
Transmission Line Constants Resistance Inductance and Capacitance
Electric power supply system Single line diagram acdc system 1-phase and 3-phase system
Electrical performance of transmission line Resistance and skin effects Current and voltage relation on a
transmission line Representation of line short medium and long transmission line tee and pi
representation exact solution Equivalent circuit of a long line
Mechanical design of transmission line Sag and stress analysis wind and ice loading supports at different
elevations conditions at erection effect of temperature changes
Insulators for overhead lines Types of insulators their constructions and performance Potential
distribution in a string of insulators string efficiency Methods of equalizing potential distribution special
types of insulators testing of insulators
Generalized line constant general line equation in terms of A B C D constants Relations between
constants charts of line constants constants of combined networks measurement of line constants
Circle diagrams receiving and sending end power-circle diagrams Power transmitted maximum power
universal power-circle diagrams
Voltage regulation of transmission line Voltage and power factor control in transmission systems Tap
changing transformers on load tap changing Inductance regulators Moving coil regulators boosting
transformers Power factor control static condensers synchronous condenser
Substation Substation equipment bus bar arrangements substation earthing neutral grounding
substation automation GIS substation
Distribution System DC and AC distribution system Types of distribution scheme and performance
analysis
Modern Technology with Power Transmission HVDC SCADA SMART Grid
EEE 315 Communication Engineering I
Credit(s) 30
Pre-requisite(s) EEE 235
Overview of communication systems basic principles fundamental elements system limitations message
source bandwidth requirements transmission media types transmission capacity
Noise sources of noise characteristics of various types of noise and SNR mathematical representation of
noise spectral components of noise superposition of noise linear filtering noise bandwidth
Continuous wave modulation baseband transmission carrier transmission amplitude modulation SSB
VSB spectral analysis envelope and synchronous detection angle modulation frequency modulation
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 15
phase modulation spectral analysis demodulation of FM and PM signals noise in amplitude modulation
systems noise in frequency modulation systems
Sampling sampling theorem Nyquist criteria frequency aliasing instantaneous and natural sampling
Analog-to-digital conversion pulse-amplitude modulation quantization of signals pulse-code modulation
non-uniform quantization multiplexing PCM signals differential PCM delta modulation adaptive delta
modulation noise in pulse code and delta modulation systems
Digital modulation technique ASK FSK BPSK differential PSK QPSK M-ary PSK M-ary PSK
minimum shift keying (MSK)
Multiplexing Time-division multiplexing (TDM)- principle receiver synchronization frame
synchronization TDM of multiple bit rate systems frequency-division multiplexing (FDM)- principle
demultiplexing PDH SONETSDH
Multiple-access techniques Time-division multiple-access (TDMA) frequency-division multiple access
(FDMA) code-division multiple access (CDMA) - spread spectrum multiplexing coding techniques
and constraints of CDMA
EEE 316 Communication Engineering Laboratory
Credit(s) 10
Pre-requisite(s) EEE 235
Laboratory experiment will be conducted based on the theory taught
EEE 321 Digital Signal Processing
Credit(s) 30
Pre-requisite(s) MAT 221
Discrete time signals and systems Discrete transforms Discrete Fourier transform (DFT) Inverse Discrete
Fourier Transform (IDFT) Fast Fourier Transform (FFT) Inverse Fast Fourier Transform (IFFT) The Z-
transform and its application in Signal processing Correlation and Convolution Review of convolution
circular convolution autocorrelation cross correlation implementation of correlation and convolution
Digital filters Introduction to Finite Impulse Response (FIR) and Infinite Impulse Response (IIR) digital
filters various techniques of FIR and IIR filter design realization of FIR and IIR filters finite-precision
effects A brief overview of artificial neural networks fuzzy logic and generic algorithm MATLAB
application to digital signal processing (DSP)
EEE 322 Digital Signal Processing Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 323 Control Systems
Credit(s) 30
Pre-requisite(s) MAT 221
Introduction to feedback control terminologies with examples Transfer function modeling of DC and AC
serve and other familiar systems Block diagram representation and simplification to canonical form by
Masons rule Time domain specifications unit step response Location of poles and stability by Rouths
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 16
criterion Root locus Construction rules dominant poles stability PID compensation using root locus
Introduction to pole placement compensation Steady state performance types of systems examples steady
stale error and static error coefficient Frequency response Bode Nyquists and Nichols plots Gain
margin phase margin maximum magnitude resonant frequency and bandwidth correlation with tune
response Stability from Nyquist diagram (direct polar plot) Gain adjustment using Nichols chart State
space representation formation of state equations transfer function from state equation stability and eigen-
values of state transition matrix Closed-loop sensitivity functions Model errors Robust stability
Controller design using frequency response Proportional control Lead-lag control PID control Digital
control systems introduction sampled data systems stability analysis in Z-domain
EEE 324 Control Systems Laboratory
Credit(s) 10
Pre-requisite(s) MAT 221
Laboratory experiment will be conducted based on the theory taught
EEE 325 Power System Analysis
Credit(s) 30
Pre-requisite(s) EEE 313
Inductance of Transmission Lines Flux linkage inductance due to internal flux inductance of single-phase
two-wire line Flux linkage of one conductor in a group inductance of composite conductor lines GMD
3-phase line with equilateral and unsymmetrical spacing Parallel circuit 3-phase lines
Capacitance of Transmission Lines Electric flux density and electrical field capacitance and potential
potential difference between points due to a charge capacitance of a two wire line Group of charged
conductors Capacitances of a 3-phase line with equilateral and with unsymmetrical spacing Effect of earth
parallel circuit lines
Power network representations Per unit system of calculations reactance of asynchronous generators and
its equivalent circuit voltage characteristics of loads power and reactive power flow in simple systems
bus impedance matrix bus admittance matrix
Load flow studies Load flow studies of large systems using the Gauss-Seidal methods control of voltage
power and reactive power use of network analyzers and digital computers
Symmetrical fault calculation Transient analysis and short circuit calculation for symmetrical fault
condition limitations of short circuit current using regulators
Unsymmetrical fault calculations Symmetrical components- positive negative and zero sequence networks
of generators transformers and lines sequence network of systems unsymmetrical fault calculations
Power system stability Power system stability involving two machine systems swing equation Equal area
criterion of stability and its applications solution of swing equation factors affecting transient stability
EEE 331 Microprocessors and Interfacing
Credit(s) 30
Pre-requisite(s) EEE 311
Basic components of a computer system Simple-As-Possible (SAP) computer SAP-1 selected concepts
from SAP-2 and SAP-3 (jump call return stack push and pop) Evolution of microprocessors
Introduction to Intel 8086 microprocessor features architecture Minimum mode operation of 8086
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 17
microprocessor system timing diagrams of read and write cycles memory banks design of decoders for
RAM ROM and PORT
Introduction to Intel 8086 Assembly Language Programming basic instructions logic shift and rotate
instructions addressing modes stack management and procedures advanced arithmetic instructions for
multiplication and division instructions for BCD and double precision numbers introduction to 8086
programming with C language Hardware Interfacing with Intel 8086 microprocessor programmable
peripheral interface programmable interrupt controller programmable timer serial communication
interface keyboard and display interface (LED 7 segment dot matrix and LCD)
EEE 332 Microprocessors and Interfacing Laboratory
Credit(s) 10
Pre-requisite(s) EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 335 Power Electronics
Credit(s) 30
Pre-requisite(s) EEE 215
Introduction to power electronics Definition Types of power electronics circuits
Power semiconductor devices SCR Triac Diac GTO MCT and IGBT
Controlled Rectifiers Principle Classifications Single and three phase semiconverter full converter dual
converter
DC Choppers Definition Classifications Step-down Step-up chopper Buck Boost and Buck-Boost
regulators
AC voltage controllers Principle Single phase controller with resistive and inductive loads three phase
half wave and full wave controllers Cycloconverters single phase and three phase
Controlled Rectifier Single Phase Semi-Converter Full Converter Dual Converter Three Phase Semi-
Converter Full Converter Dual Converter
DCAC Inverters Principle single phase and three phase inverters with resistive and inductive load voltage
control of single and three phase inverters
Power supplies Motor control and adjustable speed drives Electronic timer dielectric and induction
heating resistance welding
EEE 336 Power Electronics Laboratory
Credit(s) 10
Pre-requisite(s) EEE 215
Laboratory experiment will be conducted based on the theory taught
EEE 337 Measurement and Instrumentation
Credit(s) 30
Pre-requisite(s) Up to L-3 T-3
The basis of measurement base and derived units measurement standards electrical standards
Measurement errors and their statistical characterization Factors influencing measurement errors
Probability of errors and Gaussian error curve
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 18
Electrical measuring instruments PMMC moving iron and electrodynamometer for measuring current
voltage power and energy Power factor and Q meters
Different techniques for measuring resistance capacitance and inductance
Electronic Meters AD conversion data acquisition and signal conditioning ranging and amplification
Measurement of DC and AC voltage and current resistance etc Sources of error and their elimination
Basic operation of an oscilloscope Oscilloscope probes Digital oscilloscope basics Storage oscilloscopes
and their use Frequency time period and time interval measurement accuracy
Signal Sources Function generator pulse generator audio and RF signal generators
The Spectrum Analyzer Types of spectrum analyzers super heterodyne spectrum analyzer and controls
methods of displaying information
Logic Analyzer Basic operation of a logic analyzer measurement types data acquisition display
applications
Computer-based Instrument Systems Data acquisition systems GPIB VXI bus systems for instrument
connectivity automation and remote control Different types of transducers and their use in measurement
and instrumentation
EEE 338 Measurement and Instrumentation Laboratory
Credit(s) 10
Pre-requisite(s) Up to L-3 T-3
Laboratory experiment will be conducted based on the theory taught
EEE 414 Electrical Appliances and Services Design Laboratory
Credit(s) 10
Pre-requisite(s) CE 122 EEE 211 EEE 221 EEE 233 EEE 311 EEE 315 EEE 331
Wattage rating of common electrical equipment Earthing requirements amp various methods Earthing and
lightning protection system design Safety regulations design of security systems including CCTV burglar
alarm Concept of fire prevention and its importance Fire detection (smoke heat etc) and alarm system
(with voice evacuation) firefighting system (sprinkler system hose) Installation of air-conditioning
heating lifts and elevators
Testing troubleshooting and maintenance of electrical appliances
Familiarization with indoor and underground telephone and fiber optic cables UTP and CAT56 data
cables Designing routing layout and installation of intercom PABX telephone public address (PA)
systems cable TV distribution LAN and wireless data systems for a building
Introduction to building regulations codes and standards BNBC NFPA etc Terminology and definitions
distribution boxes cables and conduits Familiarization with symbols and legends used for electrical
services design
Classification of wiring Design for illumination and lighting lux lumen choice of luminaries for various
applications- domestic building office building and industry
Designing electrical distribution system for low and high rise domestic office and academic buildings for
multipurpose buildings Size selection of conductors and breakers bus-bar trunking (BBT) system for
various applications Single line diagram (SLD) of a typical 11kV0415kV 500kVA sub-station and a
200kVA pole mounted transformer
EEE 400 Capstone Project
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 19
Credit(s) 5
Pre-requisite(s) Completion of third year
Capstone Project will be taken by the students when they start their Level 4 They must complete the project
work within three consecutive terms At the end of the first and second terms of ThesisProject work a
student will get an lsquoXrsquo grade and at the end of third term of ThesisProject work heshe will get the grade
for this course
Design Study investigation or development of an electrical or electronics circuit or Telecommunications
system useful equipment appliances involving latest state-of-art technology ending with a thesis The
Thesis will contain a detailed report on the work done
Alternatively it can be a theoretical study involving some analytical development leading to a research
work leading to publication of a research paper on a topic of current interest The project work can also be
executed in an industry or in a company as an intern A thesisproject report is mandatory
The work will be carried individually by a group of normally two students but not more than three under
the direct supervision of an experienced teacher of the department
The thesis must be prepared following the guidelines provided by the department
Elective Courses
Power
Elective I
EEE 449 Power Plant Engineering
Credit(s) 30
Pre-requisite(s) EEE 131 EEE 221 EEE 223 EEE 313 ME 231
Energy sources Fossil fuels nuclear fission renewable sources-hydro biomes solar wind geothermal
pumped storage hydro Power station performance connected load demand factor diversity factor load
factor plant factor utilization factor Plant performance and operating characteristics efficiency heat rate
incremental rate method Station performance characteristics Station incremental rate capacity scheduling
Base load and peak load Load division Power Plant Economical Analysis based choice of power station
and units Interconnected System Capacity savings power sharing amongst units for economic allocation
Private generation industrial co-generation capacity generation Site selection of Power Station Energy
Tariff description types and tariff in Bangladesh Hydro power stations equipment plant auxiliaries plant
operation Nuclear power stations Determination of binding energy Nuclear Reaction Advantages of
using neutrons Methods of producing neutrons chain reactions moderator types of reactors Coolant
Cycles Description of different types of reactors shielding Waste disposal Thermal power station
equipment plant auxiliaries and operation
Solar cell principle of operation spectral response factors affecting conversion efficiency I-V
characteristics maximum power output Solar cell equivalent circuit PV modules and arrays stationary
and tracking PV systems stand alone battery storage battery sizing inverter interfaces with grid Solar
cell Mismatch Hot spot Heating Bypass diode Blocking Diode
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 20
EEE 465 Special Machines
Credit(s) 30
Pre-requisite(s) EEE 223 EEE 233 EEE 449
Special machines series universal motor permanent magnet DC motor unipolar and bipolar brush less DC
motors stepper motor and control circuits Reluctance and hysteresis motors with drive circuits switched
reluctance motor electro static motor repulsion motor synchronous and control transformers Permanent
magnet synchronous motors Acyclic machines Generators conduction pump and induction pump
Magneto hydrodynamic generators Fuel Cells thermoelectric generators flywheels Vector control linear
motors and traction Photovoltaic systems stand alone and grid interfaced Wind turbine generators
induction generator AC-DC-AC conversion
EEE 481 Power System Operation and Control
Credit(s) 30
Pre-requisite(s) EEE 323 EEE 313 EEE 325 EEE 449 EEE 411
Overview vertically integrated vs deregulated power system Realtime operation SCADA EMS (energy
management system) various data acquisition devices - RTU IED PMU DFDR WAMPAC (wide area
monitoring protection and control) Application functions state estimation short term load forecasting
unit commitment (UC) economic dispatch (ED) optimal power flow (OPF) Frequency control generation
and turbine governors droop frequency sensitivity of loads ACE (area control error) AGC (Automatic
Generation Control) and coordination with UC and ED frequency collapse and emergency load shed
Power system security static and dynamic security constrained OPF Electricity market operation
GenCos ISO DisCos bidding spot market social welfare market clearing price (MCP) locational
marginal price (LMP) bilateral contracts and forward market hedging Demand side control DMS
(distribution management system) DSM112 (demand side management) smart grid concept
EEE 487 Smart Grid
Credit(s) 30
Pre-requisite(s) EEE 313 EEE 325 EEE 331
Smart grid two way communication distributed energy resources (DERs) - DG (distributed generation)
and ES (energy storage) high power density batteries EV (electric vehicles) and PHEV (plug-in hybrid
electric vehicles) smart sensors meters and appliances at demand side Data communication channels
protocols TCPIP IEEE 802 series wireless LANs bluetooth Zigbee WiMax wired LANs- Ethernet
PSTN PLC (Power Line Carrier) cyber security115 Smart meters and AMI (advanced metering
infrastructure) construction standards for information exchange- Modbus DNP3 and IEC61850
interfacing with HAN NAN WAN Power electronic interfaces between grid and DERs Demand side
integration (DSI) DSM real time pricing ancillary markets DR (demand response) for load shaping
frequency and voltage control energy efficiency Microgrids self healing and restoration
EEE 489 Nuclear Power Engineering
Credit(s) 30
Pre-requisite(s) EEE 449 CHE 101 ME 231
Basic concepts nuclear energy atoms and nuclei radioactivity nuclear processes fission fusion Nuclear
systems particle accelerator isotope separators neutron chain reaction reactor types power generation
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 21
Layout of nuclear power plant (NPP) Nuclear power plant reactors pressurized water reactor boiling
water reactor CANDU reactor gas cooled reactor liquid metal cooled reactor breeder reactor Auxiliaries
instrumentation and control Grid interconnection issues effects of frequency and voltage changes on NPP
operation Advanced and next generation nuclear plants very high temperature reactors Biological effects
reactor safety and security Three Mile island case Chernobyl case Fukushima case Fuel cycle radioactive
waste disposal
EEE 497 Power System Reliability
Credit(s) 30
Pre-requisite(s) EEE 325 MAT 211 EEE 449
Review of probability concepts Probability distribution Binomial Poisson and Normal Reliability
concepts Failure rate outage mean time to failure series and parallel systems and redundancy Markov
process Probabilistic generation and load models Reliability indices Loss of load probability and loss of
energy probability Frequency and duration Reliability evaluation techniques of single area system
Interconnected system tie line and evaluation of reliability indices
Power
Elective II
EEE 457 Power System Protection
Credit(s) 30
Pre-requisite(s) Level 4 students
Purpose of power system protection Criteria for detecting faults over current differential current
difference of phase angles over and under voltages power direction symmetrical components of current
and voltages impedance frequency and temperature Instrument transformers CT and PT
Electromechanical electronic and digital Relays basic modules over current differential distance and
directional Trip circuits Miniature circuit breakers and fuses Circuit breakers Principle of arc extinction
selection criteria and ratings of circuit breakers types - air oil SF6 and vacuum
MCB MCCB ACB for protection of low tension circuits and their selection criteria
Unit protection schemes Generator transformer motor bus bar transmission and distribution lines
Overvoltage Protection Neutral grounding
EEE 458 Power System Protection Laboratory
Credit(s) 10
Pre-requisite(s) Level 4 students
Laboratory experiment will be conducted based on the theory taught
EEE 471 High Voltage Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
High voltage DC Rectifier circuits voltage multipliers Van-de-Graaf and electrostatic generators High
voltage AC Cascaded transformers and Tesla coils Impulse voltage Shapes mathematical analysis codes
and standards single and multi-stage impulse generators tripping and control of impulse generators
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 22
Breakdown in gas liquid and solid dielectric materials Corona High voltage measurements and testing
Over-voltage phenomenon and insulation coordination Lightning and switching surges basic insulation
level surge diverters and arresters
EEE 472 High Voltage Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 479 Renewable Energy
Credit(s) 30
Pre-requisite(s) Level 4 students
Importance of renewable energy sources Statistics regarding solar radiation and wind speed Insulation
geographical distribution atmospheric factors measurements Solar cell Principle of operation spectral
response factors effecting conversion efficiency I-V characteristics maximum power output PV modules
and arrays stationary and tracking PV systems stand alone battery storage inverter interfaces with grid
Wind turbine generators types operational characteristics cut-in and cut-out speed control grid
interfacings AC-DC-AC link
EEE 480 Renewable Energy Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Electronics
Elective I
EEE 451 Solid State Devices
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 235 EEE 237
Semiconductors in equilibrium Energy bands intrinsic and extrinsic semiconductors Fermi levels
electron and hole concentrations temperature dependence of carrier concentrations and invariance of Fermi
level
Carrier transport processes and excess carriers Drift and diffusion generation and recombination of excess
carriers built-in-field recombination-generation SRH formula surface recombination Einstein relations
continuity and diffusion equations for holes and electrons and quasi-Fermi level
PN junction Basic structure equilibrium conditions contact potential equilibrium Fermi level space
charge non-equilibrium condition forward and reverse bias carrier injection minority and majority carrier
currents transient and AC conditions time variation of stored charge reverse recovery transient and
capacitance
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 23
Bipolar Junction Transistor Basic principle of pnp and npn transistors emitter efficiency base transport
factor and current gain diffusion equation in the base terminal currents coupled-diode model and charge
control analysis Ebers-Moll model and circuit synthesis BJT non-ideal effects Hetero-junction transistors
Metal-semiconductor junction Energy band diagram of metal semiconductor junctions rectifying and
ohmic contacts
MOS structure MOS capacitor energy band diagrams and flat band voltage threshold voltage and control
of threshold voltage static CV characteristics qualitative theory of MOSFET operation body effect and
current-voltage relationship of a MOSFET Non-ideal characteristics of MOSFET channel-length
modulation and short channel effects in MOSFETs MOS scaling
Introduction to Multigate FET architecture Double gate MOSFET FinFET Surrounding gate FET high-
K dielectric FETs
EEE 455 Compound Semiconductor Devices
Credit(s) 30
Pre-requisite(s) EEE 221 CHE 101 PHY 102
Reviews of Compound semiconductor Zinc-blend crystal structures growth techniques alloys band gap
basic opto-electronic properties density of carriers in intrinsic and doped compound semiconductors
Introduction to Physics of Hetero-Junctions Band alignment band offset Anderson‟s rule single and
double sided hetero-junctions quantum wells and quantization effects lattice mismatch and strain and
common hetero-structure material systems Hetero-Junction diode Band banding carrier transport and I-
V characteristics Hetero-junction field effect transistor Structure and principle band structure carrier
transport and I-V characteristics Nonideal effects frequency response high electron mobility transistor
Hetero-structure bipolar transistor (HBT) Structure and operating principle quasi-static analysis extended
Gummel-Poon model Ebers-Moll model secondary effects and band diagram of a graded alloy base HBT
Resonant Tunneling diodes physics and operation Resonant Tunneling Transistors device physics
operation and characteristics
EEE 459 Optoelectronic Devices
Credit(s) 30
Pre-requisite(s) Level 4 students
Optical properties in semiconductor Direct and indirect band-gap materials radiative and non-radiative
recombination optical absorption photo-generated excess carriers minority carrier life time luminescence
and quantum efficiency in radiation Properties of light Particle and wave nature of light polarization
interference diffraction and blackbody radiation Light emitting diode (LED) Principles materials for
visible and infrared LED internal and external efficiency loss mechanism structure and coupling to optical
fibers Stimulated emission and light amplification Spontaneous and stimulated emission Einstein
relations population inversion absorption of radiation optical feedback and threshold conditions
Semiconductor Lasers Population inversion in degenerate semiconductors laser cavity operating
wavelength threshold current density power output hetero-junction lasers optical and electrical
confinement Introduction to quantum well lasers Photo-detectors Photoconductors junction photo-
detectors PIN detectors avalanche photodiodes and phototransistors Solar cells Solar energy and
spectrum silicon and Schottkey solar cells Modulation of light Phase and amplitude modulation electro-
optic effect acousto-optic effect and magento-optic devices Introduction to integrated optics
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 24
EEE 495 Nano-electronics and Nano Technology
Credit(s) 30
Pre-requisite(s) Level 4 students
Basic concepts 3D 2D 1D carriers DOS carrier densities directed moments quantized conductance
semiclassical carrier transport ballistic transport (classical and quantum)
The MOSFET MOS electronics the MOS capacitor MOSFET energy bands vs bias 2D electrostatics
(the geometrical scaling factor) MOSFET current-voltage characteristics General expression linear region
current saturation region current (long channel) saturation region current (velocity saturated) full-range
(above threshold and sub-threshold)
The bipolar transistor Device structure I-V characteristics MOSFET as a bipolar transistor CMOS
technology the CMOS inverter and digital gates device circuit and system figures of merit MOSFET
scaling system considerations
The Ballistic MOSFET the mean-free paths and L ballistic I-V (T gt 0 non-degenerate T = 0 degenerate
and T gt 0) numerical simulation of the ballistic MOSFET Scattering theory of the MOSFET I-V in terms
of the transmission coefficient the transmission coefficient (low and high) the mean-free path for
backscattering
Beyond the silicon MOSFET (the Carbon Nano Tube FET) carbon nanotubes band-structure basics MIS
electrostatics of carbon nanotube capacitors theory of the ballistic CNTFET CNTFETs vs MOSFETs
discussion
EEE 499 Semiconductor and Nano Device
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 237
Lattice vibration Simple harmonic model dispersion relation acoustic and optical phonons Free electron
model Electrical conductivity Band structure Isotropic and anisotropic crystals band diagrams and
effective masses of different semiconductors and alloys Scattering theory Perturbation theory Fermi-
Golden rule for static and oscillating potentials scattering rates for impurity and phonons inter-band and
inter-sub-band optical absorption mobility Quantum mechanical model of carrier transport Tunneling
transport current and conductance resonant tunneling resonant tunneling diodes super-lattices and mini-
bands Introduction to inter sub-band transition devices
Electronics
Elective II
EEE 441 VLSI Circuits
Credit(s) 30
Pre-requisite(s) EEE 215 EEE 311
VLSI technology Top down design approach technology trends and design styles Review of MOS
transistor theory Threshold voltage body effect I-V equations and characteristics latch-up problems
NMOS inverter CMOS inverter pass-transistor and transmission gates CMOS circuit characteristics and
performance estimation Resistance capacitance rise and fall times delay gate transistor sizing and power
consumption CMOS circuit and logic design Layout design rules and physical design of simple logic
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 25
gates CMOS subsystem design Adders multiplier and memory system arithmetic logic unit
Programmable logic arrays IO systems VLSI testing
EEE 442 VLSI Circuits Labotatory
Credit(s) 10
Pre-requisite(s) EEE 215 EEE 311
Laboratory experiment will be conducted based on the theory taught
EEE 473 VHDL in Logic Synthesis
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to VHDL Basic VHDL constructs Design of combinational logic (adders multipliers
comparators multiplexers demultiplexers ALUs etc) and sequential logic (flip-flops registers shift
registers random number generators counters FSM etc) with behavioral VHDL descriptions Use of an
industrial EDA tool for functional and post-route simulations logic synthesis and automatic place and route
Writing testbenches Design of FSMs Converting algorithms to hardware using ASM charts and top-down
design methodologies with CPLDs and FPGAs as largest technologies Emphasis on FSM design
techniques Controller data path partitioning Algorithms that describe data path elements
Microcontrollers Design of simple and RISC processors pipelining
EEE 474 VHDL in Logic Synthesis Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 491 Biomedical Electronics
Credit(s) 30
Pre-requisite(s) Level 4 students
Human body Cells and physiological systems Bioelectricity genesis and characteristics Measurement of
bio-signals Ethical issues transducers amplifiers and filters Electrocardiogram electrocardiography
phono cardiograph vector cardiograph analysis and interpretation of cardiac signals cardiac pacemakers
and defibrillator Blood pressure systolic diastolic mean pressure electronic manometer detector circuits
and practical problems in pressure monitoring Blood flow measurement Plethymography and
electromagnetic flow meter Measurement and interpretation electroencephalogram cerebral angiograph
and cronical X-ray Brain scans Electromayogram (EMG) Tomograph Positron emission tomography and
computer tomography Magnetic resonance imaging Ultrasonogram Patient monitoring system and
medical telemetry Effect of electromagnetic fields on human body
EEE 492 Biomedical Electronics Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
Communication
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 26
Elective I
EEE 443 Random Signals and Process
Credit(s) 30
Pre-requisite(s) MAT 221 EEE 321
Probability and Random variables Sample space set theory probability measure conditional probability
total probability Bayes theorem independence and uncorrelatedness Expectation Variance moments and
characteristic functions Commonly used distribution and density functions Central limit theorem
Transformation of a random variables one two and N random variables Joint distribution density
moments and characteristic functions system reliability Random Processes Correlation and covariance
functions Process measurements Gaussian and Poisson random processes Markov Process Noise
models Stationarity and Ergodicity Spectral Estimation Correlation and power spectrum Cross spectral
densities Response of linear systems to random inputs Optimal filters Wiener and matched filters
Statistical Estimation Techniques (ML MMSE MAP)
EEE 445 Satellite Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction to satellite communication Orbits Keplerrsquos laws Station keeping Satellite altitude Satellite
systems and subsystems Saturation flux density Effective isotopic radiated power Satellite signal
processing Satellite link analysis Transformation path Path loss Noise consideration Modulation and
multiplexing techniques Multiple access techniques FDMA TDMA and CDMA Error control for satellite
links VSAT systems Direct broadcast satellite television (DBS-TV) Satellite navigation Global
positioning system (GPS)
EEE 453 Telecommunication Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Multiplexing orthogonal frequency division multiplexing (OFDM)Frequency Division Multiplexing
(FDM) and Time Division Multiplexing (TDM) and their applications Digital Modulation systems
Modems Introduction to telephone Switching Different types of Switching SPC Digital Switching
system Time and Space Switching Introduction to ATM SDII SONET and optical communications
Multiple access technique frequency division multiple access (FDMA) time division multiple access
(TDMA) statistical TDMA combined FDMA and TDMA
Spread-spectrum techniques Spread-spectrum overview Pseudonoise sequence Direct-sequence spread-
spectrum systems Frequency hopping systems Tracking of FH signal Commercial applications of spread-
spectrum systems
Information theory concept of amount of information average information information rate channel
capacity efficiency of signal transmission
Introduction to cellular Mobile Communication
Introduction to GSM GPRS CDMA Video Telephones Internet Telephones VoIP Telecommunications
EEE 467 Mobile Cellular Communication
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 27
Credit(s) 30
Pre-requisite(s) Level 4 students
Introduction Concept evolution and fundamentals Analog and digital cellular systems Cellular Radio
System Frequency reuse co-channel interference cell splitting and components Mobile radio propagation
Propagation characteristics models for radio propagation antenna at cell site and mobile antenna
Frequency Management and Channel Assignment Fundamentals spectrum utilization fundamentals of
channel assignment fixed channel assignment non-fixed channel assignment traffic and channel
assignment Handoffs and Dropped Calls Reasons and types forced handoffs mobile assisted handoffs
and dropped call rate Diversity Techniques Concept of diversity branch and signal paths carrier to noise
and carrier to interference ratio performance Digital cellular systems Global system for mobile time
division multiple access and code division multiple access
EEE 475 Communication Engineering II
Credit(s) 30
Pre-requisite(s) Level 4 students
Baseband digital transmission Limitations Pulse shaping Repeaters Pulse equalization techniques
AWGN channel model bit error rate of a baseband transmission system channel capacity theorem Digital
modulation techniques detection and demodulation techniques digital receivers matched filter and
correlator receiver bit error rate calculation of a digital link digital link design Error correction coding
block codes cyclic codes systematic and nonsystematic cyclic codes decoding techniques Wireless digital
communication system wireless channel model noncellular and cellular communication cellular concept
frequency reuse techniques Multiple access techniques FDMA TDMA CDMA and SDMA Introduction
to 2G and 3G mobile communication systems Introduction to optical fiber communication and Satellite
communication Local area network OSI model random access techniques Aloha 86 slotted Aloha
EEE 493 Digital Filter Design
Credit(s) 30
Pre-requisite(s) EEE 221 EEE 311
Application of digital filters analog filters linear phase FIR filters optimal filter design Remez exchange
algorithm multiband filters approximately linear phase IIR filter all pass filter design of IIR filter using
optimization methods Newtonrsquos method Quasi-Newton algorithms Minimax algorithms improved
Minimax algorithms filter design in time-frequency domain design of special filters Hilbert transformer
narrowband filter fractional delay filter Wiener filter filter design using Kalman filterparallel Kalman
filter Wavelet filter
Communication
Elective II
EEE 461 Optical Fiber Communication
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 28
Introduction Light propagation through optical fiber Ray optics theory and mode theory Optical fiber
Types and characteristics transmission characteristics fiber joints and fiber couplers Light sources Light
emitting diodes and laser diodes Detectors PIN photo-detector and avalanche photo-detectors Receiver
analysis Direct detection and coherent detection noise and limitations Transmission limitations
Chromatic dispersion nonlinear refraction four wave mixing and laser phase noises Optical amplifier
Laser and fiber amplifiers applications and limitations Multi-channel optical system Frequency division
multiplexing wavelength division multiplexing and co-channel interference
EEE 462 Optical Fiber Communication Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
EEE 483 Microwave Engineering
Credit(s) 30
Pre-requisite(s) Level 4 students
Transmission lines Voltage and current in ideal transmission lines reflection transmission standing wave
impedance transformation Smith chart impedance matching and lossy transmission lines Waveguides
general formulation modes of propagation and losses in parallel plate rectangular and circular waveguides
Microstrips Structures and characteristics Rectangular resonant cavities Energy storage losses and Q
Radiation Small current element radiation resistance radiation pattern and properties Hertzian and
halfwave dipoles Antennas Mono pole horn rhombic and parabolic reflector array and Yagi-Uda
antenna
EEE 484 Microwave Engineering Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
COMPUTER
Elective I
EEE 447 Computer Architecture
Credit(s) 30
Pre-requisite(s) Level 4 students
Instructions and data access methods Arithmetic Logic Unit (ALU) design arithmetic and logical
operations floating point operations Processor design data paths- single cycle and multi cycle
implementations Control Unit design hardware and micro-programmed Pipeline- pipelined data path and
control hazards and exceptions Memory organization cache virtual memory Buses Multiprocessors
type of multiprocessor performance single bus multiprocessors clusters
EEE 469 Real Time Computer System
Credit(s) 30
Pre-requisite(s) Level 4 students
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 29
Introduction to real time system Classification of real time process Real time scheduling Real time
programming Implementation Operating systems Real time IO Real Time design methodologies
Modeling for real time systems Reliable and Safe design for critical applications
Review of Microprocessor fundamentals and programmable inputoutput devices and systems for PC
Application examples digital controls robotics on line systems communication with real world signals
and automatic control using feedback feed-forward and adaptive control control algorithm
implementation
EEE 477 Multimedia Communications
Credit(s) 30
Pre-requisite(s) Level 4 students
Types of media Multimedia signal characteristic sampling digital representation signal formats Signal
coding and compression entropy coding transform coding vector quantization Coding standards H26x
LPEG MPEG Multimedia communication networks network topologies and layers LAN MAN WAN
PSTN ISDN ATM internetworking devices the internet and access technologies enterprise networks
wireless LANs and wireless multimedia Entertainment networks cable satellite and terrestrial TV
networks ADSL and VDSL high speed modems Transport protocols TCP UDP IP Ipv4 Ipv6 FTP
RTP and RTCP use of MPLS and WDMA Multimedia synchronization security QoS and resource
management Multimedia applications The WWW Internet telephony teleconferencing HDTV email
and e-commerce
EEE 485 Data Communication and Computer Networks
Credit(s) 30
Pre-requisite(s) EEE 315
Data Communication Techniques Data Rate Shannonrsquos theorem serial and parallel transmission
Asynchronous and synchronous transmission Analog to digital conversion Modulation Technology Line
coding block coding digital to analog conversion Error detection and correction CRC and other methods
RS232 (or EIA 232D) V24 interface standard
Categories of networks network topologies overview of TCPIP protocol suite and OSI model Multiple
access- CSMACD CSMACA CDMA Local Area Networks- traditional Ethernet Fast Ethernet and
Gigabit Ethernet connecting devices repeater hub bridge and switch Circuit and packet Switching Space
division and time division switching single node networks digital PBX Packet switching Circuit
switching and hybrid switching Virtual circuit and data-grams routing traffic control packet switching
and X25 standard
Data Link Control Flow control Error Detection ndash Parity and CRC Error Control (Stop and Wait Go back
N ARQ Selective Reject ARQ) High-level Data Link Control (HDLC)
Wireless LAN IEEE 80211 and Bluetooth Cellular telephony and satellite networks Internetworks IP
address ARP and ICMP Routing techniques distance vector routing and link state routing multicast
routing Transport layer- UDP and TCP protocols DNS and address resolution Internet applications e-
mail and file transfer SMTP and FTP HTTP and world wide web Virtual circuit switching and Frame
Relay and ATM congestion control and quality of service in frame relay and ATM
COMPUTER
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 30
Elective II
EEE 463 Microprocessor System Design
Credit(s) 30
Pre-requisite(s) Level 4 students
Review of 8086 family of microprocessors Instructions and data access methods in a 32 bit microprocessor
Representation of operands and operators Instruction formats Designing Arithmetic Logic Unit Processor
design single bus multi-bus architecture Control Unit Design hardwired micro-programmed and pipe
line VLSI implementation of a microprocessor or part of a microprocessor design
EEE 464 Microprocessor System Design Laboratory
Credit(s) 10
Laboratory experiment will be conducted based on the theory taught
ROBOTICS AND EMBEDDED SYSTEM
Elective I
EEE 433 Introduction to Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Robot system concepts and fundamentals Review of kinematics forces moments and Eulerrsquos law Control
techniques pathposition control Bandwidth transmission techniques and design
optimization
Robot sensors Introduction to physical sensing devices Sensor interfaces to computer systems
Organization of sensor suits Contact proximity and machine vision sensors and interfaces Learning
fundamental sensor-motor competences
Multi-sensor data fusion Multi-sensor data fusion fundamentals Wavelet transform for data fusion
System organization for multi-sensor fusion Current algorithms and their performance evaluation
Robot system integration Program and teach modes Manipulation of interfaces Interface devices and
mechatronic fundamentals Motionsensoractuator interface integration
Robot programming languages and systems Machine programming Current trends in robotics Computer
vision techniques Image acquisition and processing techniques Vision based control of robot
manipulators Robotics in industry Military application in robotics
EEE 435 Industrial Automation and Robotics
Number of Credits 30
Pre-requisite(s) Level 4 students
Industrial robotics technology including sensor and sensor systems Overview of industrial mobile and
service robots Mechanical structure drives precision and repeatability of an industrial robot 3D
Kinematics and statics - Direct and inverse kinematics Application to industrial manipulators (PUMA
SCARA) Differential Kinematics and Statics Sensors and actuators for industrial robots and mechatronic
systems Basis on simulation and programming of robotic systems The use of industrial robots Integration
in production systems Production within industrial networks PLC programming Safety aspects of
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 31
automation Economic engineering and work environment-related issues with robotic automation
Sustainable development from an automation perspective
ROBOTICS AND EMBEDDED SYSTEM
Elective II
EEE 437 Introduction to Embedded System Design
Number of Credits 30
Pre-requisite(s) Level 4 students
Introduction to Embedded Systems - Introduction to embedded systems requirements analysis
specifications design methodologies overview
Microcontroller Organization - Computer architectures ARM organization ARM instruction set data
operations control flow PIC TI DSPs
CPUs - IO and memory mapping addressing modes interrupts and traps caches co-processors memory
management unit virtual memory address translation CPU performance pipelining
Embedded Platforms - Hardware and software components of embedded platforms bus protocols DMA
system bus configurations the AMBA and AHB buses memory devices example embedded platforms
bandwidth bus and memory performance performance bottleneck
Program Design and Analysis - State machines circular buffers queues models of programs the
compilation process program performance and optimization power analysis program size analysis
validation and testing
Processes and Operating Systems - Tasks and processes process timing requirements real-time operating
systems preemptive execution context switching scheduling processes priority scheduling inter-process
communication shared-memory systems message passing
Networks and Multiprocessors - Multiprocessor systems distributed embedded systems CAN bus I2C
bus multiprocessor system-on-chip (MPSoC) accelerators
EEE 438 Embedded System Design Laboratory
Number of Credits 10
Pre-requisite(s) Level 4 students
Development platform Embedded development APIs General-purpose inputoutput (GPIO) Interrupts
Hardware timers Analog input Pulse-width modulation Serial communication
Language
HUM 111 Functional Bengali Language (পরায় াগিক বাাংলা ভাষা) Credit(s) 20
Pre-requisite(s) None
বাাংলা ভাষার বববরত ন ndash বাাংলা ভাষার উৎস সাধ ও চগলত বাাংলা সাধ ভাষার গববতত ন আধবনক বাাংলা ndash আধগনক বাাংলার উৎস ও পরয় াজনী তা গিশর বাাংলার পরকগত িঠন ও বযবহার আধগনক বাাংলার পরচার
ও পরসার
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 32
পরায় াবিক বাাংলা ndash বাাংলা ভাষার কষেতরসিহ পরায় াগিক বাাংলার বযকরণ ও আচরণ পরায় াগিক বাাংলা ঘটনা-সিয়হর পরতায়লাচনা
বাাংলা বনাম ইাংরাবি ndash বাাংলার বনাি ইাংরাগজ ইাংরাগজর বাাংলা পরগতশবদ ইাংরাগজ ও বাাংলার দবনদ ও সিনব পরয়কৌশল পেশা বাাংলা ndash গচঠি আদান-পরদান পরসতাবনা ও িয়বষণাপতর পরন ণ গনয় াি গবগধ ও দাপতগরক নীগতিালা িঠণ পগরয়বশ ও আইনিত গবষয় ভাষা জঞান পররগি কষশ াগরাংএ কথয ও সাধ ভাষার পাথতকয ও সিনব বঝা কষলখা ও বলা গবষয় জঞান ও চচত া বাাংলার মাহাতম ও কষমরা ndash বাাংলার িভীরতা ও পগরগধ আনতজত াগতক ও অনতজত াগতক বাাংলা ভববষযয়রর বাাংলা ndash বাাংলার ভগবষযত ও ভগবষযয়তর বাাংলা ভাষা রখন অগসততব বাাংলার জনয বাাংলা
HUM 221 Professional English
Credit(s) 30
Pre-requisite(s) None
General discussion Introduction various approaches to learning English
Grammatical Problems Construction of sentences grammatical errors sentence variety and style
conditionals vocabulary and diction
Reading Skill Discussion readability scan and skin reading generating ideas through purposive reading
reading of selected stories
Writing Skill Principles of effective writing Organization planning and development of writing
Composition precis writing amplification
General strategies for the writing process Generating ideas identifying audiences and purposes
construction arguments stating problems drafting and finalizing
Approaches to Communication Communication today business communication different types of
business communication
Listening Skill The phonemic systems and correct English pronunciation
Speaking Skill Practicing dialogue Story telling Effective oral presentation
Report Writing Defining a report classification of reports structure of a report and writing of reports
General Education Development
BDS 101 Bangladesh Studies
No of credits 20
Pre-requisite(s) None
Part A Roots of Bangladesh Ancient Bengal The Medieval Bengal British Rule Emergence of
Bangladesh Mind and Culture of Bangladesh Education in Bangladesh Literature Ethnic Insurgency
Foreign policy
Part B Politics and Economy of Bangladesh (1971-2003) Government and Administration Executive
Legislature Judiciary
AOL 101 Art of Living
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 33
Credit(s) 20
Pre-requisite(s) None
Definition and scopes of Ethics Different branches of ethics Social change and the emergence of new
technologies History and development of engineering ethics Science and technology- necessity and
application Study of ethics in engineering Applied ethics in engineering
Human qualities of an engineer Obligation of an engineer to the clients Attitude of an engineer to other
engineers Measures to be taken in order to improve the quality of engineering profession Ethical
expectation Employers and employees inter-professional relationship Professional organization ndash
maintaining a commitment of ethical standards Desired characteristics of a professional code
Institutionalization of ethical conduct
Learning to learn Essential skills for 21st century survival Parents amp life Etiquette Personal behavior
Professionalism Self-esteem Mind mapping impression management Transforming failure into success
Emotional growth and personality Benefits of ethical living and lifetime performance job search technique
in 21st century presentation skills and facing job interview
EMP 101 Employability 360o
Credit(s) 20
Pre-requisite(s) None
Career Planning Know Yourself SWOT Analysis improving technical skills Soft Skills Organizational
Skills amp Behaviour Professionalism Responsibility Work ethic Presentation skills Portfolio making
Career Search Technique Team work and Leadership Skills Development Job application and Facing
Interview Setting up your own firm challenges of starting business
ACC 121 Financial and Managerial Accounting
No of credits 20
Pre-requisite(s) None
Financial Accounting Objectives and importance of accounting branches of accounting accounting as
an information system computerized system and application in accounting Recording Systems double
entry mechanism accounts and their classification accounting equation accounting cycle journal ledger
trial balance Preparation of financial statements considering adjusting and closing entries Accounting
concepts and conventions Financial statements analysis and interpretation ration analysis- tests for
profitability liquidity solvency and overall measure
Costs and Management Accounting Cost concept and classification Segregation and mixed costs
Overhead costs meaning and classification allocation of overhead cost overhead recovery method Job
order costing preparation of job cost sheet and quotation price Inventory valuation absorption costing and
variable costing technique Cost volume profit analysis meaning breakeven analysis contribution margin
approach sensitivity analysis Short term investment decision relevant and differential cost analysis
Linear programming Long term investment decisions capital budgeting various techniques of evaluation
of capital investment investment appraisal under uncertainty risk management capital rationing Concept
of working capital need for working capital management of cash stock debtors
HUM 211 Sociology
Credit(s) 20
Pre-requisite(s) None
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 34
Introduction Society Science and Technology- an overview Scientific Study of Society Social Elements
Society Community Association and Institution Mode of Production and Society Industrial Revolution
Development of Capitalism
Culture and Socialization Culture Elements of Culture Technology and Culture Cultural Lag
Socialization and Personality Family Crime and Deviance Social Control Technology Society and
Development Industrialization and Development Development and Dependency Theory Sustainable
Development Development and Foreign Borrowing Technology Transfer and Globalization Modernity
and Environment Problem and Prospects
Pre-industrial Industrial and Post-industrial Society Common Features of Industrial Society Development
and Types of Social Inequality in Industrial Society Poverty Technology and Society Social Stratification
and Social Mobility Rural and Urban Life and their Evaluation
Population and Society Society and Population Fertility Mortality and Migration Science Technology
and Human Migration Theories of Population Growth-Demographic Transition Theory Malthusian
Population Theory Optimum Population Theory Population Policy
HUM 321 Engineering Ethics and Environmental Protection
Credit(s) 20
Pre-requisite(s) None
Human Values Morals Values and Ethics Integrity Work Ethic Honesty Courage Empathy Self-
Confidence Character
Engineering Ethics Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral
dilemmas Moral autonomy Kohlbergs theory Gilligans theory Consensus and controversy Models of
Professional Roles Theories about right action Self-interest Customs and religion Uses of ethical theories
Valuing Time co-operation and commitment Engineering ethics Perspective Bangladesh
Engineering as Social Experimentation Engineering as experimentation Engineers as responsible
experimenters Codes of ethics A balanced outlook on law The challenger case study
Safety Responsibilities and Rights Safety and risk Assessment of safety and risk Risk benefit analysis
and reducing risk Bhopal and Chernobyl case studies
Environmental Protection and Sustainability Ethics of environmental protection Environment issues from
engineering aspects Technology for sustainable environment Responsibility for environmental protection
and sustainability
HUM 413 Technology Entrepreneurship
Credit(s) 20
Pre-requisite(s) None
Technology Entrepreneurship Today Trends and Opportunities in Technology Entrepreneurship A Word
about Global Markets
Five Pillars of Technology Entrepreneurship Value Creation Lean Startup Customer Discovery and
Validation Business Model Canvas Entrepreneurial Method
Technology Venture Idea Generation Fundamental Venture Types Idea Generation Process Opportunity
Register Nontraditional Idea Sources
Markets and Product or Service Development Product Planning and Development Idea Development
Process Concept of Newness Opportunity Assessment Plan Disruptive Technology Market
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 35
Protecting Your Intellectual Property IP And Technology Ventures Recognizing IP Record Keeping
Trade Secrets Patents Copyrights Mask Works Trademarks
Legal Structure and Equity Distribution Ownership and Liability Issues Choice of Legal Structure Equity
and Equity Types Raising Capital Equity Distribution in the Start-up Venture
Developing and Implementing the Technology Business Plan Writing the Business Plan Elements of a
Business Plan
Capital and Capital Sources The Capital Management Plan Regulation of Financing Activities Debt
Financing Fundraising Tools and Techniques Alternatives to Debt and Equity Financing
Launching the Venture Market Entry Positioning Market Penetration Strategy Value Chain Analysis
Developing a Contingency Plan Growing Beyond the Startup
Marketing and Selling Your Products Target Market Selection Purchasing the Product Service Marketing
Contracts Sources of Contract Law Contract Formation Defenses Against Contract Enforcement
Performance and Breach Anatomy of a Contract Types of Agreements Encountered
Venture Management and Leadership Entrepreneurial Leadership Leadership Skills Entrepreneurial
Leadership and Ethics
Valuing and Exiting Your Venture Due Diligence Valuation Exit via Succession Exit via Acquisition
Exit via Merger Exit Via Initial Public Offering Registration Statement and Timetable
ECO 411 Energy Economics
Credit(s) 30
Pre-requisite(s) None
Introduction to economics Economics and engineering Different economic systems Fundamental
economic problems
Basic concepts Definition of energy measuring energy energy conversion and efficiency history of
energy use energy consumption economic growth and human development impact on environment global
energy scenario
Introduction to energy system Overview of energy demand Energy end uses energy balance table Energy
intensity Energy elasticity of GDP
Fossil fuel markets Coal oil natural gas LNG depletion of non-renewable resources From primary
production to end use Energy transportation and storage Electricity and regulation Deregulation and
competition in market
Financing energy development Energy resources and economic rent Economic rent leasing and taxation
of energy resources government revenues Allocation of resources over time and financing energy
development Discounting Levelized costs of renewable resources Electricity supply Energy sources
cost of production Energy futures
IPE 411 Industrial and Operational Management
Credit(s) 20
Pre-requisite(s) ACC 121
Management Functions and Organization Evolution management function organization theory and
structure span of control authority delegation manpower planning
Personal Management Importance need hierarchy motivation leadership wage incentives performance
appraisal and participative management
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 36
Operation Management Production planning and control (PPC) functions quantitative methods applied in
production quality management location and layout planning safety and loss management
Cost and Financial Management Elements of cost products cost analysis investment analysis benefit cost
analysis risk analysis
Management Accounting Cost planning and control budget and budgetary control
Marketing Management Concepts strategy sales promotion patent laws
Technology Management Management of innovation and changes technology life cycle Case studies
Basic Science
PHY 111 Physics
Credit(s) 30
Pre-requisite(s) None
Mechanics Basic Concepts of Mechanics Motion in One-dimension Motion in Plane Particle dynamics
Linear momentum of a particle linear momentum of a system of particles conservation of linear
momentum some application of momentum principle angular momentum of a particle angular momentum
of a system of particles
Heat and Thermodynamics heat and work ndash the first law of thermodynamics and its applications mean
free path Maxwellrsquos distribution of molecular speeds reversible and irreversible processes Carnotrsquos cycle
second law thermodynamics Carnotrsquos theorem entropy
Waves and Oscillation differential equation of simple harmonic oscillator total energy and average energy
combination of simple harmonic oscillation spring mass system torsional pendulum two body oscillation
reduced mass damped oscillation forced oscillation resonance progressive wave power and intensity of
wave stationary wave
Modern Physics Galilean relativity and Einsteinrsquos special theory of relativity Lorentz transformation
equation Length contraction Time dilation and mass energy relation Group and phase velocities
photoelectric effect Compton effect De Broglie matter waves and its success in explaining Bohrrsquos theory
Paulirsquos exclusion principle
PHY 112 Physics Laboratory
Credit(s) 10
Pre-requisite(s) None
Laboratory experiment will be conducted based on the theory taught in Physics course
CHE 101 Chemistry
Credit(s) 30
Pre-requisite(s) None
Atomic structure quantum numbers electronic configuration periodic table properties and uses of noble
gases Different types of chemical bonds and their properties molecular structure of compounds selective
organic reactions different types of solutions and their compositions phase rule phase diagram of mono-
component system properties of dilute solutions thermo-chemistry chemical kinetics chemical
equilibrium ionization of water an pH concept electrical properties of solution
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 37
CHE 112 Chemistry Laboratory
Credit(s) 10
Pre-requisite(s) None
Volumetric analysis acid base titration oxidation-reduction titration determination of different metals
volumetrically
Mathematics
MAT 111 Differential Calculus and Integral Calculus
Credit(s) 30
Pre-requisite(s) None
Differential Calculus Limits continuity and differentiability Successive differentiation of various types
of functions Leibnitzrsquos theorem Rollersquos theorem Mean value theorem Taylorrsquos and Maclaurinrsquos theorems
in finite and infinite forms Lagrangersquos form of remainders Cauchyrsquos form of remainders expansion of
functions evaluation of indeterminate forms of Lrsquo Hospitalrsquos rule Partial differentiation Eulerrsquos theorem
Tangent and normal subtangent and subnormal in Cartesian and polar co-ordinates determination of
maximum and minimum values of functions Curvature asymptotes Curve tracing
Integral Calculus Integration by the method of substitution Standard integrals integration by successive
reduction definite integrals its properties and use in summing series Wallirsquos formulae improper integrals
Beta function and Gamma function Area under a plane curve and area of a region enclosed by two curves
in Cartesian and polar coordinates volumes and surface areas of solids of revolution
MAT 121 Complex Variable and Vector Analysis
Credit(s) 30
Pre-requisite(s) MAT 111
Complex Variable Complex number system general functions of a complex variable limits and
continuity of a function of complex variable and related theorems complex function differentiation and the
Cauchy- Riemann equations infinite series Convergence and uniform convergence Line integral of a
complex function Cauchy integral formula Liouvillersquos theorem Taylorrsquos and Laurentrsquos theorem singular
points Residue Cauchyrsquos residue theorem
Vector analysis Multiple product of vectors Linear dependence and independence of vectors
Differentiation and integration of vectors together with elementary applications Line surface and volume
integrals Gradient of a scalar function divergence and curl of a vector function various formulae Integral
forms of gradient divergence and curl Divergence theorem Stokersquos theorem Greenrsquos theorem and Gaussrsquos
theorem
MAT 131 Ordinary and Partial Differential Equations
Credit(s) 30
Pre-requisite(s) MAT 111
Ordinary Differential Equations Degree and order of ordinary differential equations formation of
differential equations solution of first order differential equations by various methods Solution of general
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 38
linear equations of second and higher orders with constant coefficients Solution of homogeneous linear
equations Solution of differential equations of the higher order when the dependent or independent variable
are absent Solution of differential equation by the method based on the factorization of the operators
Frobenius method
Partial Differential Equations Introduction Linear and non-linear first order equation Standard forms
linear equations of higher order equations of the second order with variable coefficients Wave equations
particular solution with boundary and initial conditions
MAT 133 Probability and Statistics
Credit(s) 30
Pre-requisite(s) MAT 111
Introduction Sets and probability Random variable and its probability distributions Treatment of grouped
sampled data Some discrete probability distributions Normal distribution Sampling124 theory Estimation
theory Tests of hypotheses Regression and correlation Analysis of variance
MAT 211 Linear Algebra and Co-ordinate Geometry
Credit(s) 30
Pre-requisite(s) MAT 111 MAT 121
Linear Algebra Introduction to systems of linear equations Gaussian elimination Definition of matrices
Algebra of matrices Transpose of a matrix and inverse of matrix Factorization Determinants Quadratic
forms Matrix polynomials Euclidean n-space Linear transformation from IRn to IRm Properties of linear
transformation from IRn to IRm Real vector spaces and subspaces Basis and dimension Rank and nullity
Inner product spaces Gram-Schmidt process and QR decomposition Eigenvalues and Eigenvectors
Diagonalization Linear transformations Kernel and Range Application of linear algebra to electric
networks
Coordinate Geometry Coordinate systems 2D and 3D Cartesian polar cylindrical and spherical their
mutual relationship Simplification of equation of curves Distance
MAT 221 Continuous Signals and Linear Systems
Credit(s) 30
Pre-requisite(s) MAT 211
Classification of signals and systems signals - classification basic operation on signals elementary signals
representation of signals using impulse function systems ndash classification Properties of Linear Time
Invariant (LTI) systems Linearity causality time invariance memory stability inevitability Time domain
analysis of LTI systems analogues system Differential equations - system representation order of the
system solution techniques zero state and zero input response system properties impulse response -
convolution integral determination of system properties state variable - basic concept state equation and
time domain solution
Frequency domain analysis of LTI systems Fourier series- properties harmonic representation system
response frequency response of LTI systems Fourier transformation- properties system transfer function
system response and distortion-less systems
Laplace transformation properties inverse transform solution of system equations system transfer
function system stability and frequency response and application pole zero concept
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 39
Applications of time and frequency domain analyses solution of analog electrical and mechanical systems
amplitude modulation and demodulation sampling theorem time-division and frequency-division
multiplexing
MAT 318 Numerical Analysis Laboratory
Credit(s) 10
Pre-requisite(s) MAT 211
Laboratory on numerical techniques using computer solution of differentiation and integration problems
transcendental equations linear and non-linear differential equations and partial differential equations
Other Engineering
CE 122 Engineering Drawing
Credit(s) 10
Pre-requisite(s) None
Introduction- lettering numbering and heading instrument and their use sectional views and isometric
views of solid geometrical figures Plan elevation and section of multistoried building building services
drawings detailed drawing of lattice towers Familiarization with CAD tools for building services design
CSE 131 Computer Programming and Application
Credit(s) 30
Pre-requisite(s) None
Programming Concepts Programming languages Language processors Problem solving with computer -
problem definitions analysis algorithms flowcharts pseudo code coding running the programs
debugging testing documentations
C Programming Language Overview of C C fundamentals Operators and expressions Data input and
output Control statements Program structure - storage classes automatic variables external (global)
variables static variables multifile programs Character strings Arrays Functions Structures and unions
Pointers Data files Additional features of C - enumerations commend line parameters macros C
preprocessor
ME 231 Basic Mechanical Engineering
Credit(s) 30
Pre-requisite(s) None
Introduction to sources of energy Study of fuels steam generating units with accessories and mountings
study of steam generators and turbines
Introduction to internal combustion engines and their cycles study of SI engines CI engines and gas
turbines with their accessories
Types of fluid machinery study of impulse and reaction turbines Pelton wheel and Kaplan turbines study
of centrifugal and axial flow machines pumps fans blowers and compressors study of reciprocating
pumps Basics of conduction and convection critical thickness of insulation
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories
EEE Syllabus | 2019 40
Refrigeration and air conditioning their applications study of different refrigeration methods refrigerants
refrigeration equipment compressors condensers evaporators expansion devices other control and safety
devices Psychometrics study of air-conditioning systems with their accessories