Transcript
Page 1: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI MAFATLAL POLYTECHNIC

NATAKKAR RAM GANESH GADKARI MARG VILE PARLE (WEST), MUMBAI-400056

CURRICULUM

Shri Bhagubhai Mafatlal Polytechnic started 03 year’s Diploma courses and affiliated to the Board of

Technical Examinations, Maharashtra State, in 1963. Since 1969, academic freedom was granted to the

Polytechnic, which enabled it to evolve curriculum and examination scheme and to introduce inplant training,

resulting into industry institute interaction. Thus 4 years’ semester sandwich pattern came in existence. Since

1978-79 academic freedom was extended to all the full-time diploma courses. In 1989-90, full autonomy was

granted to all seven full-time diploma courses. As a further development to the above, the Multi-Point Entry and

Credit System (MPE&CS) was initiated in 1981 on the progressive basis. In the scheme students can regulate

their pace of studies within the rules prescribed. From 1993-94, full academic autonomy was extended to all the

courses.

(Full Time 04 Year Sandwich Pattern)

Diploma Course in INDUSTRIAL ELECTRONICS (Aided)

The focus of Industrial Electronics course is to acquaint the students with advanced industrial circuits and their applications. The course offers Principles of Digital Techniques, C++ Programming and Industrial

Electronics at 3rd and 4th semester level. At 6th semester level more focus on Industrial Electronics is given by way of Advanced Industrial Electronics subject. Signals and Systems and Control System are incorporated as

elective subject. The course on Servicing Techniques is offered to give insight in servicing and maintenance aspect of the Electronics equipment.

To make the students aware of latest development in industrial automation and control, subjects like Robotics and Process Control Instrumentation are added at the 7th semester level. The awareness regarding

industrial drives is given through Power Electronic subject. Specialized subjects like Advanced Communication Engineering and Embedded System Design are offered as Electives out of which a student can opt for any one.

Overall the students of Industrial Electronics after undergoing the course will strengthen their knowledge in the field of Industrial Automation and AC-DC drives.

Objectives: On completion of Diploma students will be able to work as:-

Electronic Supervisor

Engineer in process control and automation industry

Design, implement and maintain power control and allied circuits

An Entrepreneur

PRACTICAL TRAINING:

The students receive institutional training for the first four semesters. In the 5th semester they are

given inplant /field training. They return to the polytechnic in the 6th

and 7th semesters for institutional training.

In the concluding 8th

semester, they again receive inplant /field training. This scheme enables the students to be

exposed to industry during the training, which is provided for practice orientation and improves their prospects

for employment.

Page 2: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vile Parle Kelavani Mandal`s

SHRI BHAGUBHAI MAFATLAL POLYTECHNIC

TEACHING AND EXAMINATION SCHEME

DISCIPLINE: INDUSTRIAL ELECTRONICS w.e.f. batch admitted June, 2012 (Progressively)

SEMESTER : I

Sr No

Subject Name (code) Preq.

Sub

Code

Scheme of Instructions

and Periods per week

Theory Paper

Duration and

Marks

Scheme of Examination Gr Scheme

L/P/Cr

L P D T Cr Hrs Mks SSL Paper TW PR OR Total

1 Applied Mechanics

(120001)

- 3 2 - - 5 3 80 20 80 50@ - - 150 C* 325

2 Basic Mathematics (120003)

- 3 - - 1 4 3 80 20 80 - - - 100 B* 404

3 Chemistry-I (120004) - 2 2 - - 4 3 80 20 80 25@ 50** - 175 B* 224

4 Development of Life Skills (120006)

- 2 - - 1 3 - - - - 50@ - 50** 100 B* 303

5 Engineering Drawing I (120014)

- 2 - 4 - 6 - - - - 50@ 50** - 100 C* 246

6 Physics-I (120008) - 2 2 - - 4 3 80 20 80 25@ 50** - 175 B* 224

7 C++ Programming (120701)

- 3 2 - - 5 - - - - 50@ 50** - 100 B* 325

TOTAL 17 8 4 2 31

No.of

Papers=04 80 320 250 200 50 900

TOTAL PERIODS = 31 TOTAL MARKS = 900

* Compulsory, # Award Winning, ** Assessed by Internal and External Examiners Jointly, @ Assessed by Internal Examiner Only L- Lecture Period, P- Practical Period, D-Drawing Practice Period, T- Tutorial, Cr- Credit, SSL- Sessional, TW- Term Work,

PR- Practical, OR- Oral Gr- Group, B - Basic, C - Core, A - Application, M - Management

Head of Department Principal

Page 3: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

Course : PE CH IE DE /CE ME EE Semester: I / II

Duration : 16 Weeks

Subject : Applied Mechanics Code : 120001

Group : C*

2. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory

Hrs Per Week

Practical

Hrs Per Week

Paper Theory Marks

Sessional Marks

Term Work

Practical /Orals

Total Hrs. N/P Mks

3 2 5 3 1 100 80 20 50@ - 150

3. RATIONALE:

Applied Mechanics is the study of Forces and their effect on moving or stationary bodies. Also the

concept of Mechanics will be useful to understand the further subjects materials & structures, analysis of structures and design.

4. OBJECTIVES:

Students will be able to: (1) Understand the force / force system and their effect on a body.

(2) Apply the concept of mechanics to the real situation. (3) Build the pre-requisite of higher semester subject related to designs.

5. DETAILED CONTENTS:

SECTION I

Chapter Topics Periods Marks

1

Introduction to Mechanics,

1.1 Mechanics definition, classification, Statics & Dynamics, Kinematics, kinetics

1.2 Fundamental units of measurements (FPS, MKS, SI), derived Units, Conversion of units, Scalars & Vectors with examples

1.3 Definition of particle, body and rigid body, mass & weight.

03 06

Page 4: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

2

Resolution Of Forces

2.1Concept of force, definition, unit, graphical representation of force

2.2 Concept of system of forces, non-coplanar, coplanar, concurrent,

Parallel, non-concurrent & non-parallel forces.

2.3 Resolution of a force into two components along any

directions. 2.4 Resolution of a force into two components at right angles to

each Other by analytical method.

(Applications levers, chain & links, connected bodies like trains etc. )

05 08

3

Composition Of Forces

3.1 Composition, Resultant of force 3.2 Law of parallelogram of forces,

3.3 Moment of force, couples lever arm, 3.4 Varignon’s theorem

3.5 Resultant of coplanar concurrent, parallel, and non-concurrent, non parallel forces

(Applications in shafts, crane, joints of trusses, etc )

05 08

4

Equilibrium

4.1 Definition of equilibrant., relation between Resultant and

Equilibrant, Conditions of Equilibrium, Types of Equilibrium Stable, Unstable and Neutral equilibrium

4.2 Equilibrium of coplanar concurrent forces, Lami’s theorem. 4.3 Equilibrium of coplanar parallel forces & coplanar

Non- concurrent Forces. 4.4 Analytical conditions of equilibrium for coplanar concurrent

& Non-concurrent Forces.

(Applications of crane stability, link mechanisms, inclined plane, wedges, anchor blocks for water pipe lines, balance, levers, pulley &

pulley blocks) Practicals:

(a) Simple roof truss. (b) Bell crank lever.

(c) Levers of different types. (d) Extension of Springs.

(e) Compression of springs

06 10

Page 5: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

5

Beam Reactions

5.1 Types of supports (constraints), simple, roller, hinged & fixed. 5.2 Types of Beams, simply supported, hinged & roller supported,

Cantilever, Over hang Beams. 5.3 Types of Loads, Point(Concentrated) Load, Uniformly

Distributed Load(U D L) 5.4 Problems on above combination of loads

(Application like bearings of shafts, guy, rocker and roller supports of railway bridges, )

05 08

SECTION II

6

Friction

6.1 Definition, types of friction, Static friction, dynamic friction 6.2 Fundamental laws of static friction. Coefficient of friction.

Cone of friction. Angle of friction, Angle of repose, Rolling friction

6.3 Study of inclined plane, wedge and block system, ladder friction.

(Application in clutches, Brakes, Dynamometers, journals, Belt & Rope drives, stator & Rotor in electric motors, Bearings.)

Practicals:

(a) Friction between wooden surfaces

(b) Friction between wooden surfaces and glass, metal surfaces

06 10

7

Centre of gravity

7.1 Center of gravity of solids, centroid of plane laminas, definition,

7.2 concept of parallel forces applied to find c,g, and centroid , centroidal/c.g. axes of a body/lamina, c.g. / centroid of basic

regular Shapes. 7.3 Applications like floating bodies, dams & retaining wall

sections beams columns sections (rolled steel), simple and built up

sections (Applications like floating bodies, dams, retaining walls, columns etc.)

Practical:

(a) Centroid of Plane Laminas

06 10

8

Simple Lifting Machines (Application topic)

11.1 Definition : Mechanical Advantage, Velocity Ratio, Efficiency,

Relation between them, Friction in machine in terms of load &

Effort. 11.2 Law of Machine, Maximum M.A., Maximum efficiency,

Condition for reversibility of a machine 1. Study of machines – Simple and Differential Axle &

Wheel

06 10

Page 6: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

2. Weston differential pulley block, Simple screw jack,

Worm & Worm Wheel, Single & Double purchase crab winch, system

Of pulleys.

9

Graphics Statics

12.1 Space diagram, Bows notation.

12.2 Law of Triangle of forces, Polygon of forces, Force/Vector diagram

12.3 Resultant and equilibrium of concurrent forces 12.4 Polar diagram, Funicular polygon

12.5 Resultant and equilibrium of non –concurrent and non-parallel

forces 1. Applications in finding reactions of beams Stresses in

simple frames

06 10

Total 48 80

6. PRACTICALS:

Term Work consists of Journal containing minimum 10 experiments performed of the following in

the Laboratory.

1. Extension / Compression of the spring.

2. Bell Crank Lever. 3. Two/Three Sheave Pulley Block.

4. Simple Screw Jack. 5. Single / Double Purchase Crab Winch

6. Differential Axle & Wheel. 7. Centroid Of Plane Lamina

8. Sheer Leg & Derrick Crane. 9. Resultant of Non Concurrent Non Parallel Forces.

10. Friction. 11. Jib Crane,

12. Graphic Statics. 13. Moment Of Inertia of Fly Wheel.

Page 7: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

7. Reference Books:

Sr.

No.

Author Title Editio

n

Year of

Publication

Publishers & Address

1. Dhade &

Jamdar

Applied Mechanics 2nd

2002 Central Techno Publishers, Nagpur

2. R. S. Khurmi Applied Mechanics 19th

2001 S. Chand & Company Ram Nagar,

New Delhi – 110 055.

3. A. K. Tayal Engineering Mechanics Statics &

Dynamics

9th

1998 Umesh Publications

4 Sunil M Deo Applied Mechanics

Vol. I & II

7th 2004 Nirali / Pragati

Publications Mumbai

5 M D Dayal Applied Mechanics

1st 2000 Nandu Publishers.

Chembur, Mumbai-71.

6 S S BHAVIKATTI Applied Mechanics

Tata Mcgrew Hill

QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5 12 - - Any 2 out of 3 06

2. Any 2 out of 4 12 - - Any 2 out of 3 08

3. Any 2 out of 3 16 - - Any 1 out of 2 06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Total - 40 - 40 - 20

Page 8: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:-

Program: All SEMESTER: I Course: Basic Mathematics Code: 120003

Group: B* Compulsory

2. TEACHING AND EXAMINATION SCHEME:-

Scheme of

instruction & Periods Per Week

Theory Paper

duration & marks

Scheme of Examination Gr Scheme

L/Pr/Cr

L P D T Cr Np Hrs Mks SSL Theory Paper

T/W PR OR Total

3 0 - 1 4 1 3 80 20 80 -- -- -- 100 B* 404

3. RATIONALE:-

Basic Mathematics is classified as Basic Science subject which intends to teach students the facts

concepts and principles of Mathematics that can be applied to solve problem in all Engineering courses

4. OBJECTIVES:- Students will be able to understand

1. concepts of Partial Fractions, Determinant, Matrices and Binomial Theorem

2. concepts of Trignometry and Coordinate Geometry

3. Applications of Trignometry.

5. DETAILED CONTENTS:- SECTION-I

(A) ALGEBRA HOURS MARKS

1 PARTIAL FRACTION 06 08

1.1. Definition of partial fraction, proper and improper fractions 1.2. To resolve into partial fractions

- Linear factors

- Repeated linear factors

- Non repeated quadratic factors

2 DETERMINANT 06 10

2.1 Definition and expansion of 2nd

and 3rd

order determinant

2.2 Cramer`s rule to solve equations in 2 and 3 unknowns

2.3 Properties of determinant and solving problems

3 MATRICES 12 12

3.1 Definition of a matrix of order m x n and types of matrices 3.2 Addition, subtraction, scalar multiplication and multiplication

between Matrices

3.3 Transpose of a matrix 3.4 Minor cofactor of an element of a matrix, adjoint of matrix and

inverse of matrix by adjoint method

Page 9: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3.5 Solution of simultaneous equations containing 2 and 3 unknowns

by matrix inversion methods.

4 BINOMIAL THEOREM 08 10

4.1 Definition of combination 4.2 Expansion

4.3 Middle term 4.4 Independent term

4.5 Approximate value

TOTAL 32 40

SECTION-II

5 TRIGONOMETRY 16 20

5.1 Trigonometric ratios of allied compound and sub-multiple angles 5.2 Factorization and de-factorization formulae.

5.3 Inverse trigonometric functions , principle value 5.4 Properties of the triangle

5.5 Solution of triangle

6. CO-ORDINATE GEOMETRY 08 10

STRAIGHT LINE

6.1 Slope and intercept of straight line 6.2 Equation of straight line

- Slope point form - Slope intercept form

- Two point form - Intercept form

- Normal form 6.3 Intersection of two lines, angle, condition of parallel and

perpendicular lines

6.4 Length of perpendicular from a point on the line 6.5 Perpendicular distance between two parallel lines

CIRCLE

6.6 Equation of circle

- Centre radius form - Diameter form

- Intercept form

08 10

6.7 General equation of circle

6.8 Tangent line and normal line

TOTAL 32 40

6. Implementation Strategy(planning): Conducting lectures as per lesson plan and conducting tutorial

in the same class room.

Page 10: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

7. Reference Books:

Sr.

No.

Author Title Publishers & Address

1. Shri. S.P. Deshpande

Calculus for Polytechnics Pune Vidyarthi Graha Prakashan

Pune-30

2. Shri. B.M. Patel Shri J.M. Rawal

Applied Mathematics Nirali Prakashan Mumbai

3. Dr. B.S. Grewal Higher Engineering Mathematics

Khanna Publishers 2/B, Delhi-6

4. J.N. Wartikar,

P.N. Wartikar

A text book of Applied

Mathematics

Pune Vidyarthigraha

Prakashan, Pune- 411030

5. S.S.Sastry Introductory methods of

Numerical analysis

Prentice Hall of India –New

Delhi

6. M.K.Jain Numerical method for Scientific and engineeing

computation

Wiley estern

8. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of

5

12 - - Any 2 out of

3

06

2. Any 2 out of

4

12 - - Any 2 out of

3

08

3. Any 2 out of 3

16 - - Any 1 out of 2

06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Page 11: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

SUBJECT DETAILS:

Course: IE/DE Semester: I / I

Subject: C++ Programming Code:120701

Group: B*

1. TEACHING AND EXAMINATION SCHEME:

Scheme of Instructions

and Periods per week

Theory Paper

Duration and

Marks

Scheme of Examination Gr Scheme

L/P/Cr

L P D T Cr Hrs Mks SSL Paper TW PR OR Total

3 2 - - 5 - - - - 50@ 50** - 100 B* 325

3. RATIONALE:

C++ supports the two most popular programming paradigms procedural programming and object

oriented programming. It also offers a powerful way to cope up with the real world problems. Students will be able to write better programs in C++ because it offers software’s reusability, testability, portability

and reliability.

4. OBJECTIVES:

After studying the subject the student will be able to:

1. List of the keywords, operators of the ‘C++’ language 2. Draw flowchart for programs

3. Write programs in ‘C++’

5. DETAILED CONTENTS:

Chapter Contents Hours 1 1.0 Structured programming using C++ 04

1.1 C++ as a superset of C programming language 1.2 C++ Fundamentals: Character set, Identifiers and keywords, Data types constants

and Variables Declarations, Operators and expressions, Library Functions, Symbolic constants, Preprocessor Directives

2 2.0 Data Input and Output: 04

2.1 getchar( ), putchar( ), scanf( ), printf( ), puts( ), cin, cout, setw( ), endl etc

2.2 Control statements: if, if-else, switch-case Loop statements: for, while, do-while

Breaking Control statements: break, continue, goto 3 3.0 Functions And Program Structures 08

3.1 Introduction 3.2 Defining of Function

3.3 Return statement 3.4 Types of Function

3.5 Actual and formal Arguments 3.6 Local and Global Variables

3.7 Default Arguments

Page 12: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3.8 Multifunction Programs 3.9 Storage Class Specifiers: Automatic, Register, Static, External Variables

3.10 Recursive Functions 4 4.0 Pointers 04

4.1 Declarations, Referencing and De-referencing, Passing Pointers to Functions, Pointers to Arrays

4.2 Structures and Unions: defining and Processing a structure and union

5 5.0 Arrays 04

5.1 Array notation

5.2 Array Declaration

5.3 Array Initialization

5.4 Processing with Array

5.5 Arrays and Functions

5.6 Multidimensional Arrays

5.7 Character Arrays

6 6.0 Classes and Objects 12

6.1 Introduction

6.2 Structures and Classes

6.3 Declaration of Class

6.4 Arrays of Class Objects

6.5 Constructors: Copy and default constructors

6.6 Destructors

6.7 Static Class members: Static data member and static member functions

6.8 Friend Functions

6.9 Dynamic memory allocations

6.10 This pointer

7 7.0 Inheritance 04

7.1 Single inheritance

7.2 Multiple inheritance

8 8.0 Overloading 04

8.1 Function overloading: With various data types, with argument, scooping rules for function overloading, special features of function overloading

8.2 Operator Overloading: Overloading Assignment, Binary operator

9 9.0 Polymorphism 04

9.1 Introduction, Virtual functions, Pure virtual functions

Total

48

PRACTICE:

1. Programs on for ,do,do-while,while loop 2. Program on switch-case

3. Program on function and recursive function 4. Program on single and two dimension arrays

5. Program on pointers 6. Program on structure

7. Program on class and object, constructor, destructor, friend function

Page 13: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8 Program on single, multiple, multilevel inheritance 9. Program on function overloading and operator overloading

10.Program on polymorphism 6. IMPLEMENTATION STRATEGY (PLANNING):

1. Teaching Plan 2. Minimum 15 practical / assignments

7. REFERENCE BOOKS:

Sr. Author Title Publishers & Address

1 D. Ravichandran Programming with C++ Tata McGraw Hill

2 Balaguruswamy Programming in C++ Tata McGraw Hill

3 Robert Lafore Object Oriented Programming in C++ Galgotia Publications

4 Yashwant Kanetkar Let us C++ B.P.B. Publications

Page 14: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vile Parle Kelavani Mandal’s Shri Bhagubhai Mafatlal Polytechnic

1. SUBJECT DETAILS:

Course : C/M/E/IE/PL/CH/DE Engineering Semester : I

Duration : 16 Weeks

Subject : Chemistry-I Sub Code : 120004

Group : Basic Compulsory

2. TEACHING AND EXAMINATION SCHEME:

Scheme of Instructions & Periods per Week

No. of Papers, Duration & Marks

Scheme of Examination Scheme L/Pr/Cr.

L P D T Cr NP Hrs Mks SSL Theory Paper

@T/W Pract. Oral Total

2 2 - - 4 1 3 80 20 80 25 50** - 175 2/ 2/ 4

3. RATIONALE:

This subject is classified under the category of Basic Sciences. It intends to develop the understanding of fundamental principles of chemistry. This will form the base for the better understanding

of the other core technology and technological subjects of different branches.

4. OBJECTIVES:

After studying the subject the student will be able to

1. Understand basic principles of chemistry. 2. Apply the principles to other subject.

3. Understand the language of chemistry.

5. DETAILED CONTENTS:

SECTION-I

Chapter Content Marks Hours

1. 1.0 Atomic Structure:

1. Dalton’s Atomic Theory

2. Rutherford’s Scattering Experiment 3. Drawbacks of Rutherford’s Model

4. Bohr’s Theory of an atom 5. Quantum numbers

6. Orbits and orbitals, shape of s and p orbitals 7. Pauli’s exclusion principle

18

08

Page 15: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8. Hund’s rule 9. Aufbau principle

10. Heseinberg’s Uncertainty Principle 11. Electronic configuration of first twenty

elements 12. Study of inert gases

13. N/P Ratio 14. Nuclear stability mass defect and binding

energy 15. Definition and types of valency - electrovalency,

covalency, co-ordinate valency

2. 2.0 Electrochemistry :

2.1 Atom, ion 2.2 Arrhenius theory, degree of ionization

2.3 Mechanism of electrolysis 2.4 Faraday’s Laws of Electrolysis.

2.5 Numerical problems based on its applications 2.6 Applications of electrolysis

1. Electroplating 2. Electrotyping

3. Electrorefining 4. Electrometallurgy

14 05

3. 1. Metals and Metalloids :

1. Types of metals 2. Mechanical Properties of Metals such as Hardness,

Toughness, Ductility, Malleability, Tensile Strength, Tenacity, Machinability, Extrusion, Forging,

Castability, Weldability, Soldering. 3. Physical properties and applications of some

commonly used metals and metalloids such as Fe, Cu, Al, Cr, Ni, Sn, Pb, Zn, Ag, Si.

08 03

SECTION-II Chapter Content Marks Hours

4. 4.0 Corrosion :

1. Definition 2. Types of Corrosion

1. Atmospheric Corrosion 2. Mechanism of Atmospheric Corrosion

3. Immersed Corrosion – Galvanic Cell Type Corrosion, Concentration Cell Type Corrosion,

20 09

Page 16: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Oxygen Concentration Cell Type Corrosion 4. Mechanism of Immersed Corrosion

1. Factors affecting corrosion 2. Methods of prevention of corrosion.

1. Purification of Metal 2. Alloying

3. Cathodic Protection 4. Controlling External Environment

5. Application of Protective Coatings

1. Methods of applying Metal Coating. 1. Hot Dipping – Galvanizing, Tinning

2. Metal Spraying 3. Alloying – Sheradizing

4. Electroplating 5. Metal Cladding

5. 5.0 Water :

1. Sources of Water. 2. Impurities in natural water.

3. Physical and chemical characteristics of water. 4. Hardness of water

1. Causes of Hardness of Water 2. Types of Hardness – Temporary, Permanent

3. Degree of Hardness of Water 4. Estimation of hardness of water

5. Disadvantages of hard water – for domestic purpose, industrial purpose, Steam generation in Boilers.

6. Steam generation in Boilers – Boiler Corrosion, Scales & Sludges, Caustic Embrittlement, Priming & Foaming.

12 04

6. 6.0 pH :

6.1 Concept of pH 6.2 pH scale, applications of pH in industry

6.3 Problems based on hydrogen ion and hydroxyl ion concentration

08 03

Total

Practice Hours

Marks

80

=

Hours

32

32

Page 17: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

5A. PRACTICE:

List of Experiments: 01– 06: Techniques of determination of concentration of solutions:

Volumetric Analysis

1. Neutralization Titration

1. Titration between Strong Acid and Strong Base using Phenolphthalein as indicator – 2 sets

2. Titration between Strong Acid and Weak Base using Methyl Orange as indicator – 2 sets

3. Redox Titration

1. Titration between KMnO4 and FeSO4.7H2O

2. Titration between KMnO4 and Mohr’s Salt [FeSO4.(NH4)2SO4.6H2O]

07- 08: Determination of: 1. Hardness of water

1. EDTA method 2. Soap Solution method

3. Chloride content in water

09. Determination of pH of different solutions.

10. To prepare a chart showing application of metals like Fe, Cu, Al, Cr, Ni, Sn, Pb, Co.

6. IMPLEMENTATION STRATEGY (PLANNING):

1. Theory topics and practice experiments should be done simultaneously. This will help the students to understand the

topics.

2. Question papers for the periodical test should cover the topics which have been taught to test the understanding.

7. REFERENCE:

Sr.

No.

Author Title Publishers & Address

1. Jain and Jain Chemistry of Engineering Materials Dhanpat Rai Publishing Co. New Delhi

2. Narkhede & Thatte Engineering Chemistry

3. Mahadeokar & Dr. U. P. Kodgire

Chemistry for Engineering students Everest Publishing House, Pune

4. B.S. Godbole Applied Chemistry Satya Prakashan, New Delhi

QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5 12 - - Any 2 out of 3 06

2. Any 2 out of 4 12 - - Any 2 out of 3 08

3. Any 2 out of 3 16 - - Any 1 out of 2 06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Total - 40 - 40 - 20

Page 18: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Development of Life Skills COURSE: ME/CE/EE Semester : II/II/II

COURSE: PE/CH/DE/IE Semester : I/I/I/I

Sub Code: 120006 Group : B*

Teaching and Examination Scheme Scheme of Instructions

and Periods per week

Theory Paper

Duration and

Marks

Scheme of Examination Gr Schem

e L/P/Cr

L P D T Cr Hrs Mks SSL Paper TW PR OR Total

2 - 1 3 - - - - 50@ - 50** 100 B* 303

Rationale : Human resource is the most important resource. Until this resource is motivated and utilized to the maximum, organizational effectiveness cannot be achieved. There is need to help students in the overall growth of personality

and train them in organizational requirements their workplace. Students coming from various rural and cultural backgrounds

face variety of complexities to faction globally, as they lack in interpersonal skills, self –motivations, leadership and business

ethics. Thus learning basic life skills like Time management, Leadership, Conflict Management, Negotiation, and Decision Making will imbibe social adaptability and human sensibility as an integral part of their mind set.

Objectives: 1. Students will learn various life skills to increase his/ her efficiency and utility at workplace.

2. The student will learn to perform the given task with innovative ideas.

3. The Student will learn to express his /her view and experiences on various topics.

4. The Student will learn to make maximum use of time for more creative and constructive work.

5. Students will learn how to cope with stress of study and work .

Topic

No.

Topic & sub Topic Hours Marks

1.

Area of Self Development 1. Introduction,

2. Areas of self development,

3. self analysis,

02

07

2

Time Management

2.1 Introduction,

2.2 Time planning, How to plan time,

2.3 Time wasters, Time management 2.4 Time matrix etc.

02

06

3.

Stress Management

3.1 Definition of stress,

3.2 Types of personality and stress, 3.3 Sources of stress

3.4 Stress Busters

3.5 Psychological reaction to stress

3.6 Yoga and stress control . etc

02

08

4

Emotion 4.1 Emotional Maturity

4.2 Emotional Stability and Emotional

Intelligence,

4.3 How to control Emotions etc.

03

07

Page 19: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

5

Frustration

4. Definition of frustration,

5. Anatomy of frustration, 6. Causes of frustration,

7. Effects of frustration,

8. handling of frustration

02

07

6

7

Motivation 6.1 Introduction to Motivation

6.2 Self- Motivation ,

6.3 Attitude & Aptitude etc

7. Interpersonal Skills

7.1 Interpersonal Relations

7.2 Factors of Attraction,

7.3 Personal Effectiveness, Assertiveness/ Non- assertiveness ,

7.4 Empathy

02

03

07

08

8

Conflict Management

8.1 Definition of Conflict

8.2 Sources of Conflict , 8.3 Types of Conflict,

8.4 Conflict Resolution ,

8.5 Steps In Conflict Resolution

02

08

9

SWOT Analysis

9.1 Concept of SWOT 9.2 Scope of SWOT,

9.3 SWOT as decision making tool ,

9.4 How to go about SWOT

02

07

10.

Ethics 10.1 What Are Ethics?

10.2 Values & Value formation

10.3 Moral Development

10.4 Decision Making

02

07

11. Group discussion & Interview techniques

11.1 Importance of Objective GD

11.2 Procedure for GD,

11.3 Evaluation criteria for GD. 11.4 Types of interviews

11.5 preparation for interviews

11.6 Some Do’s and Don’ts for interview

11.7 FAQ in interview

04

08

12.

Study Habits

12.1 Establishment of good study habits

12.2 Efficient use of time

12.3 Prioritize the work 12.4 power of concentration

12.5 setting comfortable place for study

12.6 visiting library

12.7 staying alert 12.8 Review of class notes

12.9 study can be funny.

02

07

Page 20: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

13

Working in Team

13.1 Definition of Team 13.2 Importance and necessity in working team

13.3 Team dynamics

13.4 Transforming groups into teams

02

07

14

Task Management

14.1 Definition of task 14.2 Task characteristics,

14.3 Task sponsor and task stakeholder

14.4 Planning the task

14.5 Task evaluation

02

06

32 100

List of Assignments:

1. Indentify your areas of self development and plan strategies to improve it.

2. Enlist your time- wasters. And write down how you use your time on any average day, and see how

you can improve time utility.

3. Expose yourself to situations that irritate and make you angry. Enlist the thing you will do to remain

calm.

4. Look back in your life and list five occasions, when you were frustrated, Recall the strategies you used

to overcome that frustration.

5. What are the things that motivate you ( Friendliness, Warmth, Honesty, Appreciation ) and Things

that Demotivate you ( Rejection , Criticism, Fear of failure , insult )

6. Enlist the ten various sources of interpersonal conflicts, and Methods to resolve it.

7. Listen to lecturer on particular topic and take down notes and check how good you were in capturing

the structure, hierarchy of concepts and essence of speech.

8. What are the things you would do, if you have only One week to live. ?

9. Make a general purpose SWOT analysis to discover your strengths and learning areas and on the

basis of that decide a career .

10. Identify some negative attitudes you have and find solutions for replacing it 11. Identify your values and prepare a code of ethics for yourself .

(Note: Teacher will do necessary changes in the assignments as per requirement) .

6. IMPLEMENTATION STRATEGY (PLANNING):

1. Theory topics and practice experiments should be done simultaneously. This will help the students to understand the

topics.

7. Reference Books:

Name of book Author Publication

Organizational Behavior Fred Luthans Tata McGraw Hill Sixth 1992

Basic managerial skills for all E .H. Megrath Prentice Hall of India Ltd 1989

Managing Time First Dr.R.L.Bhatia Wheeler Publishing 1994

Development of Generic skill - I

&

Development of life skills -II

K . Sudesh

Nandu Publication ,Mumbai

How to motivate people Patrick Forthsayth Kogan page first Edition 200

Page 21: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

2. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory

Hrs Per Week

Practical

Hrs per Week

Paper TH Sessional T/W PR Total

Hrs NP Mks

02 04 06 - - - - - 50 @ 50** 100

3. RATIONALE:

Engineering drawing is a language of engineers. It is classified as engineering science subject. It describes scientific

facts, principles and technique of drawing in order to visualize and express the ideas and to convey the instructions through

drawings without ambiguity. In engineering drawing – I, student will study concept of orthographic projections, isometric projection, isometric view, ideas of two dimensional and three dimensional objects, missing views, curves etc.

4. OBJECTIVES:

Engineering drawing helps in understanding design of parts, assembly, structure etc. used in engineering field. It supports

technology and technical subjects. By achieving visualization and drawing skills, the student will successfully discharge his

role on shop floor, design department and inspection department etc.

5. DETAILED CONTENTS:

Chapter Content

SECTION-I

Marks Hours

01 1. Introduction :

1.1 Importance of Engineering Drawing for the study of

technical courses 1.2 Drawing instruments, types of lines and dimensioning.

1.3 Scale (reduced, enlarged and full size) Plain scale and diagonal scale.

1.4 Geometrical constructions. Practice sheet/s:

1. One sheet on lettering, lines, dimensioning techniques and geometrical constructions.

- 02

02 2.0 Principal Planes and Quadrants:

2.1 Concept of principal planes and quadrants

2.2 I and III angle method of projections

- 01

03

3.0 Orthographic Views :

3.1 Projections of various objects having flat and curved surfaces

-

02

Courses :EE/IE/PE/CH/DE Semester : I

Duration : 16 Weeks

Subject: Engineering Drawing – I Code : 120014

Group : C*

Page 22: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

using I and III angle projection method. Practice sheet/s:

i) One sheet on orthographic projection four objects with linear features

ii) Home Assignment: Four problems in sketchbook.

-

04

05

4.0 Conversion of Pictorial View :

4.1 Conversion of pictorial views in to non-sectional

orthographic views. The objects may have slots, holes cavities etc.

Practice sheet/s: 1. One sheet with non sectional orthographic views for the

objects with curvilinear features. 2. Home Assignments: Four problems in sketchbook.

5.0 Isometric Views and Projections:

5.1 Isometric Views and Projections of linear and curvilinear features.

Practice sheet/s: 1. One sheet with four problems on Isometric view having

linear and curvilinear features. 2. On sheet with four problems on Isometric projection having

linear and curvilinear features. 3. Home Assignments: Four problems in sketchbook .

04

04

06 6.0 Engineering curves :

6.1 Cycloidal curves: Cycloid, epicycloids, hypocycloid

(Simple cases) 6.2 involute of circle and polygon.(Simple cases)

6.3 Helix on cylinder (not on cone) Practice sheet/s:

1. One sheet with four Problems containing cycloid, epicycloids, hypocycloid, involute and helix

2. Home Assignments: Four problems in sketchbook.

-

03

SECTION-II

07 7.0 Conversion of Pictorial View into Sectional Orthographic: 7.1 Conversion of pictorial views with cutting plane into

sectional orthographic projection (full section only) Practice sheet/s:

1. One sheet with four problems. 2. Home Assignments: Four problems in sketchbook.

06

08 8.0: Missing Views : 05

Page 23: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8.1Given two views (F.V. – T.V. or F.V.-S.V.) ,deriving the third view-non sectional or sectional.

8.2 Full section 8.3 Half section

1. Offset section concept. Practice sheet/s:

1. Two sheets with four problems each. 2. Home Assignments: Four problems in sketchbook.

09 9.0 Conic Sections:

9.1 Ellipse: Oblong, arcs of circle and concentric circle method. 9.2 Parabola: Eccentricity and rectangular methods.

9.3 Hyperbola: Eccentricity and rectangular methods.

Practice sheet/s: 1. One sheet with four problems on Ellipse Parabola and Hyperbola,

Involute and Helix. 2. Home Assignments: Four problems in sketchbook.

05

6. IMPLEMENTATION STRATEGY (PLANNING) :

In depth study and understanding of the subject will be implemented by adoption of

the following strategy :

1. Theory Teaching Plan 2. Term Work Plan for practical giving problems to draw in the class.

3. Home assignments to practice at home

4. Conduct of three periodical test

5. Use of OHP models and charts during theory class and practical periods

7. REFERENCE BOOKS :

Sr.N

o.

Author Title Edition Year of

Publication

Publishers & Address

1. N.D.Bhatt and

Panchal

Geometrical and Machine

drawing

14th 2000 Rupalee Pub.Opp.

Amul Dairy, Court

Rd, Anand

2. R.K. Dhawan Engineering drawing 2nd

2001

S.Chand & Co.Ltd., Ram Nagar New Delhi-110 055

3. R.K. Dhawan Machine drawing 2nd

2001

S.Chand & Co. Ltd ,Ram Nagar

New Delhi-110 055

4. M.L. Dabhade Engineering Graphics 4th 1995 Mrs.VA.Velhankar

1030, Model Colony,

B-12,Akash Ganga Pune-411 016

Page 24: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

Course : CE/ME/EE/IE/PE/CH/DE Semester : I

Subject : PHYSICS-I Subject Code : 120008

Group : B* Duration : 16 Weeks

2. TEACHING AND EXAMINATION SCHEME:

Scheme of Instructions & Periods per Week

No. of Papers, Duration & Marks

Scheme of Examination Scheme L/Pr/Cr.

L P D T Cr NP Hrs Mks SSL Theory Paper

T/W Pract. Oral Total

2 2 - - 4 1 3 80 20 80 25@ 50** - 175 2/ 2/ 4

RATIONALE:

The student has to attain a remarkable knowledge level regarding properties of materials and laws of

Physics via concepts of “matter”, “energy” and “measurement”. This stands fundamentals, essential for various branches of engineering and involves a theory and practical approach with due stress on practical

application aspect of the subject. This is emphasized by widening scope of Laboratory work, selecting such text and specialized reference books.

4. OBJECTIVES:

Student will be able to : 1. Appreciate the importance of precision involved in measurement.

2. Acquire the knowledge of material properties and laws of Physics. 3. Understand heat as energy, concept of temperature and its measurement, Behaviour of gases,

concept of heat engine. 4. Understand nature of sound energy, its propagation, acoustic details, utilization of ultrasonic

waves.

5. DETAILED CONTENTS:

1. THEORY CONTENTS:

SECTION-I

Marks Hours

Chapter 1

Measurement of physical quantities and units

1. System of units: CGS, MKS, FPS, MKSA;

Units: Fundamental, Derived, Supplementary,Coversions 2. SI Units and Standards-

‘metre’,’kilogram’,’second’,’degree kelvin’,’candela’,’ampere’,’mole’

-

02

Page 25: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Chapter 2

General Physics

2.1 Elasticity ‘Elasticity’ ‘Modulii’, Poisson’s ratio, Measurement

by Searle’s method , Elastic behavior of wire, Engineering applications, Numerical problems.

2.2 Surface Tension and Capillarity

Molecular theory, Surface Tension and Capillarity, Applications, Numerical Problems.

2.3 Viscosity

Streamline flow, Critical velocity, Newton’s formula, ‘poise’. Poiseuille’s equation, Stokes formula, Applications, Reynolds

number, Numerical Problems.

08

04

08

04

02

03

Chapter 3

Heat

1. Specific heats of gases

Cp and Cv in terms of enthalpy, Mayer’s relation, Numerical problems.

2. Heat Transfer – Conduction Steady state, Temperature

gradient, Coefficient of Thermal conductivity, Thermal conductivity of a good conductor – Searle’s method, Thermal

conductivity of rubber tube – Calorimetric method, Thermal conductivity of a poor conductor – Lee’s method.

TOTAL

10

10

40

02

03

16

Chapter 4

SECTION-II

Thermodynamics

4.1 Thermometry: Zeroth law, Standard gas thermometer, Platinum

resistance thermometer, Thermo-electric thermometer, Optical pyrometer.

1. Elementary Thermodynamics :Mechanical equivalent of heat

and First law of thermodynamics,Isothermal and Adiabatic processes.

4.3 Thermodynamic processes – Reversible, Irreversible. P-V diagram, Heat engine, Entropy.

06

06

04

03

02

01

Chapter 5

Sound

1. Simple Harmonic Motion: General equation of SHM, Graphical representation, Numerical problems.

2. Wave Motion: Types of waves, Forced vibration and Resonance,

Velocity of sound(tube closed at one end), Numerical problems,

04

08

02

03

Page 26: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

. Sonometer- frequency of A.C. supply. 5.3 Intensity of Sound :‘phon’, ‘decibel’, Logarithmic formula for

Intensity of sound. 5.4 Acoustics and Reverberation: Reverberation, Sabine’s formula,

Numerical problems, Acoustical planning, Noise reduction and Sound Insulation, Ultrasonic – Production and Uses; Sonic, Subsonic,

Supersonic.

04

08

02

03

TOTAL 40 16 2. PRACTICAL CONTENTS:

1. Experiments to be performed (Any 08)

1. Use of Measuring Instruments – Vernier Callipers, Micrometer Screw Gauge, Spherometer. 2. Young’s Modulus by Searle’s Apparatus

3. Elastic Constants by Searle’s Method. 4. Surface tension by Capillary rise method

5. Viscosity by Poiseuille’s method 6. Viscosity by Stokes method

7. Ratio of Specific Heats Cp/Cv by Clement and Desorme’s Apparatus 8. Thermal Conductivity of a Good Conductor by Searle’s Apparatus.

9. Thermal Conductivity of Rubber Tube by Calorimetric Method. 10. Thermal Conductivity of an Insulator by Lee’s Method.

11. Constant Volume Thermometer 12. Velocity of Sound by Resonance.

13. Velocity of Sound by C.R.O. 14. Frequency of A.C. Supply by Sonometer and Verification by C.R.O.

15. Demonstrations (Any 04)

1. Use of Precision Measuring Instruments (Dial Vernier, Dial Micrometer, Traveling Microscope etc.)

2. Poisson’s Ratio for Rubber Tube 3. e.m.f. of a Thermocouple

4. Temperature of Flame (Optical Pyrometer) (v)Study of Ultrasonics

6. Term-Work:

Compulsory term-work on the list of experiments written in a journal and carrying 25 marks on timely submission basis specified at the index sheet of Physics Journal.

7. Scheme of Practical Examination:

1. Each candidate will be examined in one experiment from among those prescribed in the syllabus.

The duration of the experiment will be two hours (with a coupling of Demonstration if any). 2. The performance of the candidate in the practical examination will be assessed out of 50 marks as

shown in the following scheme. Scheme of Assessment:

1. Connections, adjustments and observations ……………………..20 Marks 2. Circuit Diagram, figures and tabulation …………………………..10 Marks

Page 27: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3. Formula, calculations and graphs if any …………………………..10 Marks 4. Oral ………………………………………………………………...05 Marks

5. Correct answer or appropriate result ………………………………05 Marks

Total ……………………………….50 Marks 6. Each candidate will be jointly examined by both External and Internal Examiners.

7. Certain demonstrations are coupled with certain conventional experiments during the examination. Marks allotted for demonstration are 15 and marks for conventional experiments are 35. The

conventional experiment is assessed out of 50 as mentioned under (iv) in the above scheme and then converted out of 35. Assessment of a demonstration is judged by answers (oral or written)

given by candidate in front of the relevant demonstration setup. 8. If any candidate is unable to draw a correct circuit diagram, the same may be given by the

examiner on request so that the candidate may continue the experiment. However, five marks will be deducted for the same.

9. While assessing, the overall performance and the ability of the candidate to handle the apparatus independently, will be considered.

8. IMPLEMENTATION STRATEGY (PLANNING):

1. Theory – Lesson Plan 2. Practical – Scheme of marking for T/W, Scheme of assessment for Practical Examination.

9 (a). TEXT BOOKS:

Sr.No. Author Title Edition Year of Publication Publishers & Address

1. R.K. Gaur and

S.L. Gupta

Engineering

Physics

Any 1981-96

2001 Reprint 2004, 2008

Dhanpat Rai & Sons,

New Delhi

2. M.R.

Shrinivasan

Physics for

Engineers

Any 1976 New Age International,

New Delhi

3.

P.G. Kshirsagar

and M.N.

Avadhunuhu

A Text Book of

Engineering

Physics

Any 1992 Reprint

1993 till 2005 S. Chand and Co. Ltd, New Delhi

4.

Gambhir,

Durgapal and

Banerjee

Introductory

Physics - Vol-

1,2 &3.

Any 1972

Wiley Eastern

9 (b). REFERENCE:

Sr.No. Author Title Edition Year of Publication Publishers &

Address

1. Resnik and Halliday

Physics Vol. 1 & 2 Any 1986

Wiley Eastern

2. B.L. Theraja Engineering Physics

Any 1962

Reprint 1974-87

S. Chand and

Co. Ltd, New Delhi

Page 28: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5 12 - - Any 2 out of 3 06

2. Any 2 out of 4 12 - - Any 2 out of 3 08

3. Any 2 out of 3 16 - - Any 1 out of 2 06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Total - 40 - 40 - 20

Page 29: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vile Parle Kelavani Mandal̀ s SHRI BHAGUBHAI MAFATLAL POLYTECHNIC

TEACHING AND EXAMINATION SCHEME

DISCIPLINE: INDUSTRIAL ELECTRONICS w.e.f. batch admitted June,2012 (Progressively)

SEMESTER: II

Sr No

Subject Name(code) Preq

Sub Code

Scheme of Instructions and Periods per week

Theory Paper

Duration and Marks

Scheme of Examination Gr Scheme

L/P/Cr

L P D T Cr Hrs Mks SSL Paper TW PR OR Total

1 Basics of Computer

System (120002)

- 2 2 - - 4 - - - - 50@ 50** - 100 B* 224

2 Communication Skills

(120005)

- 3 - - 1 4 03 80 20 80 25@ - - 125 B* 404

3 Chemistry-II (120010) - 2 2 - - 4 03 80 20 80 25@ 50** - 175 B* 224

4 Engg.Mathematics

(120012)

- 3 - - 1 4 03 80 20 80 - - - 100 B* 404

5 Physics-II (120013) - 2 2 - - 4 03 80 20 80 25@ 50** - 175 B* 224

6 Elements of Electrical

Technology (120401)

- 3 2 - - 5 03 80 20 80 25@ 50** - 175 C* 325

7 Workshop Practice (120009)

- 1 4 - - 5 - - - - 50@ - - 50 C* 145

TOTAL 16 12 - 02 30 No of Papers-05

100 400 200 200 - 900

TOTAL PERIODS = 30 TOTAL MARKS = 900

* Compulsory, # Award Winning, ** Assessed by Internal and External Examiners Jointly, @ Assessed by Internal Examiner Only

L- Lecture Period, P- Practical Period, D-Drawing Practice Period, T- Tutorial, Cr- Credit, SSL- Sessional, TW- Term Work, PR- Practical, OR- Oral

Gr- Group, B - Basic, C - Core, A - Application, M - Management

Head of Department Principal

Page 30: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Proposed w .e. f. July 2012

onwards

Basics of Computer System

(T.W. = 50 Marks, Pr. = 50 Marks, Lecture 2/week,

Practical 2/week, Credit: 4)

SUB Code: 120002

Teaching And Examination Scheme:

Subject

Group : B*

Scheme of

Instructions and

Periods per week No. of

Papers,

duration

&

Marks

Scheme of Examination

Detailed

Syllabus

Ref. No.

Sch

eme

L.P

r./C

r.

Lec

ture

Pra

ct. o

r

Drg

.

Tu

tori

al

Ses

sio

na

l

Wo

rk

Pa

per

Ter

m

wo

rk

Pra

ct.

Ex

am

To

tal

Basics of Computer

System

2 2 -- -- - - 50@

50** 100 -- 224

Rationale:

This subject envisages making the students know the fundamentals of computer systems and its organisation. It will enable the students to comprehend the organisation and working of various units of personal computer system for storing and processing information. It will also help the students to have hands on experience of operating systems and different application software used for office automation, day to day problems sharing in particular for creating business documents, data analysis graphical representations and business presentations. It also deals with basics of Internet technology available services internet connectivity and accessing information on internet. The student will also familiarize themselves with case study on Linux operating System., its design architecture, command structures.

Objective: The student will be able to:

1. Get familiarized with computerisation. 2. Utilise computers in engineering /technical field. 3. Use computer concepts for Microsoft applications 4. Promote Computer Literacy . 5. Awareness of Open Source technology: Linux OS 6. Familiar with ERP . 7. Learn networking concepts 8. Operate Internet/e-mail facility

Theory Contents: 1. Fundamentals of Computer concepts : (Periods-5 hrs,) Computer specifications PC, PC-XT , PC-AT, Pentium, net book, notebook, Hand held devices and its applications, general architecture of computers; Computer peripherals ( I/O Device ), Storage DEVICES , printers and output peripherals; General computer terms, computer software, system software, applications software , operating systems, advantages of software and application packages.

2. Introduction to Windows: (Periods-2 hrs) Structure of a Window, Basic techniques for working in Windows Using Menus;, folder, files ,users management, Working with A dialogue box, Type of Options ; Starting Windows , Task Bar, Start Menu. 3. Introduction to Computer Network (Periods-3 hrs,) Network Goals, Devices, Topologies, Cables and connectors, Addressing 4Introduction to MS-Office

4.1 Introduction to WORD package (Periods-3

hrs ) Starting Word Document ; Typing and Editing text, Copying and Moving, Typing Special Characters ( Symbols ); Some common features : Changing the case of text, Moving & copying text with drag and drop, Justifying text, inserting bulleted & numbered lists , Arranging and moving between open documents; Finding and replacing, formatting ; Using the spell checker , Checking grammar, mail merging

4.2 Concepts of POWER POINT (Periods-3 hrs ) How to make an effective presentation, Physical aspects of presentation ; A Presentation Graphics package ; Creating a presentation : creating a Title slide, Creating a Graph, Creating Tables, Make Organization Chart, To Save and close presentation; Working with Tools: Create , Edit, Move, Delete , Resize , Format text object, Working with Graphics tools; Slide show

4.3 Fundamentals of EXCEL (Periods-4 hrs )

Page 31: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Starting EXCEL: What is a spreadsheet, creating & editing spreadsheet, modifying the sheet. Study of Toolbars, Formula bar and Status bar. Inserting Header and footer, cells, rows, columns, worksheet, formatting individual cells row, column, sheet, manipulating Data by usi ng Sort. Saving and Retrieving saved worksheet.

5. LINUX as Operating System

Linux Fundamentals (Periods-6 hrs )

Introduction to open source technology, advantages of linux, Basics of Unix & Linux, Multi-user & Multitasking capabilities of Linux, change of password, the file types, structures of file system, important directories of the file system.

6. Introduction to INTERNET: (Periods-4 hrs )

What is INTERNET , intranet, client-server architecture ,various file formats , Application of INTERNET: E-mail, , WWW, Study of various search engine using LYNX, LOGIN PROCEDURE, Study of INTERNET EXPLORER, Creating mailing account, Surfing using WORLD WIDE WEB information relating to employment, education, alumni, social networking .

7. Introduction to Enterprise resource planning (Periods-02hrs )

Introduction, ERP modules , ERP Vendors , Software, case studies : SAP.

Total Theory Hrs.= 32 hrs Total Practical Hrs. = 32 hrs.

List of practical: 1) Study of Computer hardware and peripherals 2) Study of Networking Topologies and commands ipconfig,ping,netconfig etc. 3) i) Getting started with Windows by using different menus and working with dialogue box ii) Working of Control panel, Screen saver and Help commands using Windows 4) i) Creating, Editing and Saving a document , Table using Word package

ii)Creating Document with Table, editing using special characters & saving. iii) Using tool bar menus like Standard , Formatting , Tables and Borders iv) Performing functions spell check , find , replace , go to , page setup , print preview and print commands.

5) i) Creating a new presentation and getting acquainted with various menus like FILE, EDIT, VIEW, INSERT, FORMAT, TOOLS, SLIDESHOW

ii) Choosing Auto Layout and working with tools and to prepare a slide show iii) To Perform special effects using one slide show demonstration 6) Creating Spread Sheet for various combinations of computational tables. 7) LINUX basic commands.and Advanced commands.

8) Creating file using Vi editor, editing, saving file & quit from Vi editor.

9)Creating an internet account ,Internet terms, Use of Shell account and study of mailing , Software to send & receive mail on Hard Disk.

10)Use of Internet explorer package ,search Engine & retrieve education related information from TCP/IP account and downloading procedure

Reference Books: 1. Computer and Common sense by Hunt & Shelly. 2. Computer Fundamentals by V. Rajaraman ( Prentice hall) 3. PC Guide for Windows (ITC Publication/Galgotia publication) 4. Learning Word 6.0 for Windows step-by-step, Galgotia. 5. Linux: TheComplete reference - 5/E by petterson 6. Unleashed Linux Additional References: 1. Mastering MS Office (BPP Publication) 2. Data Communications and Distributed Networks, U.D. Black, Prentice-Hall Website: www.linux.org www.mocrosoft.com www.cisco.com

Page 32: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vile Parle Kelavani Mandal’s

Shri Bhagubhai Mafatlal Polytechnic

1. SUBJECT DETAILS:

Course : C/M/E/IE/PL/CH/DE Engineering Semester : II

Duration : 16 Weeks

Subject : Chemistry-II Code : 120010

Group : B* Compulsory

2. TEACHING AND EXAMINATION SCHEME:

Scheme of Instructions &

Periods per Week

No. of Papers,

Duration & Marks Scheme of Examination

Scheme

L/Pr/Cr.

L P D T Cr NP Hrs Mks SSL Theory

Paper TW PR Oral Total

2 2 - - 4 1 3 80 20 80 25@ 50** - 175 224

3. RATIONALE:

This subject is an extension of Chemistry-I and is classified under the category of Basic Sciences. The subject

intends to impart knowledge of various engineering materials, their properties, selection of material and applications in

various engineering field.

4. OBJECTIVES:

After studying the subject the student will be able to

(i) Identify the properties of metals and non-metallic materials. (ii) Select materials for different engineering applications.

(iii) Compare the effects of pollutants on environment and will be able to suggest preventive measures.

(iv) Understand the importance of pollution free environment.

5. DETAILED CONTENTS:

SECTION-I Chapter Content Marks Hours

1. 1.0 Metallurgy : 1.1 Definition of Metallurgy

1.2 General metallurgical processes

a) Concentration by Gravity Separation, Electromagnetic Separation,

Froth Floatation. b) Chemical Processes - Calcination, Roasting

c) Reduction – Smelting, Aluminothermic Process, Electrolysis.

d) Refining – Poling, Liquation, Distillation, Electrolytic Refining

1.3 Metallurgy of iron a) Occurrence of Iron,

b) Extraction of iron by Blast Furnace

1.4 Classification of steel – Based on its carbon content and its

applications. 1.5 Properties of cast iron, wrought iron and steel.

1.6 Effects of elements on properties of steel.

1.7 Heat treatment of steel – Hardening tempering, annealing and

normalizing

22 09

2. 2.0 Alloys :

2.1 Definition

2.2 Preparation of Alloys

2.3 Classification of Alloys

10 04

Page 33: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

2.4 Purposes of Alloying 2.5 Properties, composition and application of following non-ferrous

alloys:

(i) Duralumin (ii) Magnalium (iii) Monel metal (iv) Alnico

(v) Babbit metal (vi) Gun metal (vii) Brass (viii) Bronze

3. 3.0 Thermal Insulators :

3.1 Definition and characteristics of Thermal Insulators

3.2 Preparation, properties and applications of Thermocole and Glasswool.

3.3 Properties and applications of Asbestos and Cork.

08 03

SECTION-II Chapter Content Marks Hours

4. 4.0 Lubricants :

4.1 Definition

4.2 Functions of Lubricants 4.3 Types of lubricants

4.4 Types of lubrication

a) Fluid Film Lubrication

b) Boundary lubrication c) Extreme pressure lubrication

4.5 Classification of Lubricants

4.6 Characteristics of Lubricants a) Degree of acidity

b) Saponification number

c) Viscosity & Viscosity index

d) Flash and fire point e) Pour point & Cloud point

4.7 Selection of Lubricants

18 07

5. 5.0 Polymer Chemistry:

5.1 Plastics a) Definition

b) Types of plastics

c) Properties of plastics

d) Engineering applications of plastics 5.2 Rubber

a) Natural and Synthetic Rubber

b) Properties – elasticity, abrasion, resistance, Tack,

Rebound, Hardness, Stress, Strain. c) Vulcanization of Rubber

d) Applications of Rubber.

06 03

6. 6.0 Protective Coatings:

6.1 Purposes of applying Paints 6.2 Characteristics of good paints

6.3 Constituents of paints

a) Pigments

b) Vehicle c) Thinners

d) Driers

e) Fillers

f) Plasticizers 6.4 Application of Paints

6.5 Failure of Paint Film

6.6 Varnishes

6.7 Types of Varnishes 6.8 Characteristics of Good Varnish

6.9 Applications of Varnishes

06 03

Page 34: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6.10 Distinction between Paints & Varnishes

7. 7.0 Environmental Chemistry:

7.1 Causes of pollution

7.2 Types of Pollution

a) Air Pollution – Air Pollutants: sulphur dioxide, sulphur trioxide, carbon monoxide, nitrogen dioxide,

carbon dioxide, Green House Effect, Global

Warming

b) Water Pollution – Sources & Effects of Water pollution

c) Noise Pollution – Sources & Effects of Noise

pollution

7.3 Methods of preventing: a) Air Pollution

b) Water Pollution

c) Noise Pollution

7.4 Medical Waste and e-waste – their origin and disposal

10 03

Total

Practice Hours

Marks

80

=

Hours

32

32

5A. PRACTICE:

List of Experiments:

01– 08: Qualitative Analysis of Eight Solutions containing One Basic and One Acidic Radical listed below: a) Basic Radicals: Pb+2, Cu+2, Al+3, Fe+2, Fe+3, Ca+2, Ba+2, Mg+2, K+, Na+, NH4

+.

b) Acidic Radicals: Cl–, SO4–2, CO3

–2, NO3–.

09. Determination of Viscosity Index of a Lubricant.

10. Determination of Flash Point of a Lubricant using:

a) Abel’s Flash Point Apparatus

b) Pensky Marten’s Flash Point Apparatus

6. IMPLEMENTATION STRATEGY (PLANNING):

Theory topics and practice experiments should be done simultaneously. This will help the students to understand the topics.

Question papers for the periodical test should cover the topics which have been taught to test the understanding.

7. REFERENCE:

Sr.

No.

Author Title Publishers & Address

1. Jain and Jain Chemistry of Engineering Materials Dhanpat Rai Publishing Co. New Delhi

2. Narkhede & Thatte Engineering Chemistry

3. Mahadeokar &

Dr. U. P. Kodgire Chemistry for Engineering students Everest Publishing House, Pune

4. B.S. Godbole Applied Chemistry Satya Prakashan, New Delhi

Page 35: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. Subject Details

Subject (Code): Communication Skill (120005)

COURSE: ME/CE/EE Semester : I/I/I

COURSE: PE/CH/DE/IE Semester : II/II/II/II

Group : B*

2.Teaching and Examination Scheme Scheme of Instructions

and Periods per week

Theory Paper

Duration and

Marks

Scheme of Examination Gr Schem

e L/P/Cr

L P D T Cr Hrs Mks SS

L

Paper TW PR OR Total

3 - - 1 4 3 80 20 80 25@ - - 125 B* 404

3.Rationale : The communicative competence in English is the pre- requisite for the employment

market at national and international level today. However, the ability to communicate effectively does not come easily to many people. No matter how brilliant and invaluable your idea is, it is worthless

until shared either orally or in written manner. Here arises the need to learn communication skills which will enable the students to enhance their comprehension, writing and oral skills in English.

4.Objectives: 1. Student will understand the process of communication.

2. Student will learn the various grammatical structures which will enhance their oral and written

communication.

3. Student will be proficient in all four language skills (LSRW) Listening, speaking, reading writing

4. Students will acquire proficiency in spoken English by using language lab.

5.Detailed Contains

SECTION -1

Topic No. Topic & Sub -Topics Hours Marks

1. Basics of communication 1.1 Nature and Definition of communication

1.2 Process/ cycle of communication 1.3 Characteristics of communication

1.4 Objectives of Communication

04

06

2

Methods of communication 2.1 Verbal & Non verbal,

2.2 Formal & Informal 2.3 Oral & written Communication 2.3 Advantages & disadvantages Of Oral and written communication

03

06

3.

Language Grammar 3.1 Tense & its Types 3.2 Parts of speech

3.3 Degree and Its types 3.4 Use of Model Auxiliary

3.5 Basic sentence types 3.6 Clause & its Types

04

06

Page 36: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

4.

Vocabulary Building 4.1 Word Formation Processes

Affixation : prefix ,Suffix, clipping , Backformation shortfoms, Acronyms etc

4.2 Technical jargons , 4.3 Nouns Ending with –tion, -er,-logy,-ee,-aire-

metry , -ity 4.4 Errors arising out of wrong use of words

02

06

5

Phonetics & Spoken English 5.1 Language Skills : Listening & Speaking 5.2 English sound system (RP)

Vowels & Diphthongs(RP) , Consonants(RP) 5.3 Word Accent , stress a Rhythm and Intonation

05

08

6

Networks of Communication In organization 6.1 Importance communication in Organization 6.2 Horizontal communication

6.3 Vertical – downward & upward 6.4 Grapevine communication

6.5 Diagonal Communication

03

04

7

Non- Verbal Methods of Communication 7.1 Body language and its aspects 7.2 Paralinguistic, use Colour , sign symbols for

communication 7.3 Non verbal Codes : Haptics, Chronemics , Proxemics, Artifacts etc

03

04

Total

Total

24

40

SECTION –II

Topic No. Topic & sub- Topics Hours Marks 8

Barriers To communication 8.1 Definition of Barrier 8.2 Types of barriers of communication

Mechanical, Psychological , Linguistic, socio-cultural & Environmental etc

8.3 Elimination / Removal of barrier.

04

05

Page 37: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

9

Communication : Media & Technology

9.1 Advanced Means Communication

9.2 Facsimile (FAX), Internet, E-mail, 9. 3 Videoconferencing

9.4 Netiquettes

04

05

10.

Letter writing 10.1 Importance of business communication 10.2 7 Cs of Good writing ,

10.3 Layouts: Block , semi –block ,Complete Block ,

10.4 letter of Enquiry, Complaint , Order , letter to editor

05

10

11

Reading comprehension 11.1 Reading Unseen passages for comprehension

04

08

12

Report Writing

12.1 Definition of Report 12.2 Formats of reports

12.3 Types of Report : Accident, Committee Investigation etc.

04

08

13

Paragraph writing 13.1 Development of Paragraph on Given topic

03

04

Total

24

40

List of Assignments 1. Explain the process of communication with the help of diagram . Give some real life

examples , functioning in the similar way .

2. Explain the four types of sentences , Give at least two examples of each .

3. List down the relationship between the clause and sentence , give an example of it .

4. Find out any twenty difficult words from the English newspaper and understand their

meaning by using dictionary and use it in your own sentences.

5. Listen and repeat the teacher’s (or recorded) pronunciation of the given group of words(#)

6. Define syllable, vowel and consonant form RP , give at least five examples of each.

7. Listen the recorded CD’s on particular topic , and try to imitate the pronunciation by following

intonation and rhythm .(#)

8. Read the given passage and record it in your own voice the check the correctness of

pronunciation. (#)

9. Listen and mark the primary ,secondary accent for following words . (#)

10. Write the phonetic transcription of given words by using dictionary .(#)

11. List down the points related to non verbal communication to be remembered while walking for

an interview , and on the stage.

12. Collect the resume of an eminent personality ( like scientist , social worker ,

industrialist or renown politician) an prepare a speech introducing him / her.

Page 38: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

13. Explain the Various formats of letter writing and give an examples of each.

14. Develop the paragraph on the given topic .

Note :

1. Each student has to attempt any ten assignments.

2. # marked are compulsory assignments to be conducted in Language Lab.

6. IMPLEMENTATION STRATEGY (PLANNING):

1. Teaching Plan

2. Tutorials / assignments Reference Books:

Name of book Author Publication

Business Communication Lesikar and Petic Tata Mcgraw Hill Publication New Delhi . 1995

Business communication P.C Perdesi Nirali Publications,Pune. 2000

Communication Skills for Technical students

-------

Orient Longman New Delhi .

Business Communication Dr. Urmila Rai Himalaya Publication, Mumbai .

QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5 12 - - Any 2 out of 3 06

2. Any 2 out of 4 12 - - Any 2 out of 3 08

3. Any 2 out of 3 16 - - Any 1 out of 2 06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Total - 40 - 40 - 20

Page 39: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. Subject Details

Course: IE / DE Semester: II / II

Subject: Elements of Electrical Technology Code: 120401

Group: C*

2. Teaching and Examination Scheme

Scheme of Instructions and Periods per week

Theory Paper Duration and

Marks

Scheme of Examination Gr Scheme L/P/Cr

L P D T Cr Hrs Mks SSL Paper TW PR OR Total

3 2 - - 5 3 80 20 80 25@ 50** - 175 C* 325

3. Rationale: To teach the student facts, concepts, principles and procedure of operation and control of electric M/c. and applications

of electrical energy in manufacturing industry which enables him to work as supervisor in a shop and as an assistant in

research and development department.

4. OBJECTIVE: Students will be able to understand

1. The concept and principle of A.C fundamentals, which can be applied to rectify electrical faults and acquire

supervisory role .

2. Understand the working and construction of different types of machines, which will help them to discharge role as a supervisor in all technology areas and assist in carring out investigation work.

3. To select the drive for a given application.

4. DETAILED CONTENTS:

SECTION I

Chapter Contents Hours Marks

1. Introduction to electricity 2 04 1.1 Modern Electron Theory E.m.f. & potential

1.2 Ohm’s Law, resistance in series and parallel

1.3 Kirchoff’s current law and voltage law

Practice Kirchoff’s laws- verification 2. Magnetising & Electromagnetism 6 12

2.1 Magnetic flux,magnetic flux density,magnetic field strength

2.2 Right hand Gripping rule,Maxwell’s Corkscrew rule 2.3 Fleming’s left hand rule

2.4 Comparison between Electric and Magnetic ckt

3. Elecromagnetic Induction 6 10 3.1 Faraday’s laws of Electromagnetic Induction

3.2 Fleming’s left hand rule,Lenz’s law 3.3 Dynamically induced Emf ,statically induced Emf.

Practice 1)Measurement of Inductance by 3 voltmeter method 2)Measurement of Inductance by 3 Ammeter method

4. A.C. Fundamentals 10 14

4.1 Generation of Alternating Voltage and current 4.2 RMS value,Average value,Form factor,Peak factor

4.3 A.C.through Resistances,Inductance and Capacitance. 4.4 Generation of Three phase Alternating Voltage and current

4.5 Star and Delta connections of 3 phase A.C. current

Practice 1) RLC series

2) 3 phase balanced star connection, voltage relations 3) 3 phase balanced delta connection, current relations

Page 40: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

SECTION II

Chapter Content Hours Marks 5. Electrical Instruments 4 08

5.1 Deflecting torque, controlling torque & Damping torque

5.2 Types of Instruments 5.3 Advantages & disadvantages of PMMC & MI Instruments.

6. D.C generator & D.C motor 8 12

6.1 Working principle of D.C generator & D.C motor 6.2 Constructional Features of D.C generator

6.3 Types of D.C generator & D.C motor 6.4 Characteristics & application of D.C motor

Practice 1) Speed control of D.C generator 2) Load characteristic of self & separately excited generator

3) Magnetisation curve of D.C shunt generator

7. Transformer 6 10 7.1 Working principles of Transformer

7.2 EMF equation of Transformer 7.3 Voltage Transformation ratio

7.4 Losses in Transformer

Practice 1) Regulation of Transformer by direct loading

8. Industrial Application of Electric Motor 6 10

8.1 General principle of single & three induction motor 8.2 Industrial Application of Electric Motor

8.3 Classification of Industrial drives 8.4 Selection Motor

Total 48 80

PRACTICE: 1. Kirchoff’s laws- verification.

2. Measurement of Inductance by 3 voltmeter method. 3. Measurement of Inductance by 3 Ammeter method.

4. RLC series 5. 3 phase balanced star connection, voltage relations

6 3 phase balanced delta connection, current relations

7. Speed control of D.C generator 8. Load characteristic of self & separately excited generator.

9. Magnetisation curve of D.C shunt generator.

10. Regulation of Transformer by direct loading.

6. IMPLEMENTATION STRATEGY (PLANNING): The syllabus is completed by adopting the lesson plan, by charts & by demonstration of machinery in electrical technology

7. REFERENCE BOOKS:

Sr.

No

Author Tittle Publisher & Address

1. V. K. Mehta Basic Elect Engg S. Chand &Company

2. B. L. Thereja (volume I &II ) Electrical Technology S. Chand &Company

3. V. N. Mittal Basic Elect. Engg Tata Mcgraw- hill

Page 41: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:-

Program: All SEMESTER: II Course: Engineering Mathematics Code: 120012

Group: B* Compulsory

2. TEACHING AND EXAMINATION SCHEME:-

Scheme of instruction &

Periods Per Week

Theory Paper duration &

marks

Scheme of Examination Gr Scheme L/Pr/Cr

L P D T Cr Np Hrs Mks SSL Theory

Paper

T/W PR OR Total

3 0 - 1 4 1 3 80 20 80 -- -- -- 100 B* 404

3. RATIONALE:-

Engineering Mathematics is classified as Basic Science subject which intends to teach students

the facts concepts and principles of Mathematics that can be applied to solve problem in Engineering

field

4. OBJECTIVES:- Students should be able to understand

1. Derivatives and applications of derivatives in different areas

2. Complex numbers and Vector Algebra and their various applications.

5. DETAILED CONTENTS:-

SECTION-I

Chapte

r

Contents Hours Marks

1. FUNCTION AND LIMIT 14 18

1.1. Definition of variable , constant, value of function , composite

function 1.2. Limits of algebraic, trigonometric ,exponential and logarithmic

functions

2. DERIVATIVES 18 22

2.1 Definition of Derivatives 2.2 Rules of Differentiation

2.3 Composite function 2.4 Inverse trigonometric function

2.5 Implicit function 2.6 Logarithmic function

2.7 Parametric function 2.8 Derivative of one function w.r.t. another function

2.9 Second order differentiation

TOTAL 32 40

SECTION-II

3 APPLICATION OF DERIVATIVES 08 12

3.1 Geometrical meaning of Derivative

3.2 Tangent and normal line 3.3.Rates

Page 42: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3.4 Velocity and Acceleration 3.5 Maxima and minima

3.6 Radius of curvature

4 COMPLEX NUMBER 16 16

4.1 Definition of complex number

4.2 Algebra of complex number, equality, addition, subtraction, multiplication and division

4.3 De Movires theorem 4.4 Euler`s form of circular function

4.5 Hyperbolic functions

5 VECTOR ALGEBRA 08 12

5.1 Definition of vector

5.2 Algebra of vectors, equality, addition, subtraction and multiplication,

5.3 Dot product 5.4 Cross product

5.5 Scalar triple product 5.6 Work done

5.7 Moment of force about a point and line 5.8 Area of triangle, parallelogram

5.9 Volume parallelopiped , tetra hedron

TOTAL 32 40

6. Implementation Strategy(planning): Conducting lectures as per lesson plan and conducting

tutorial in the same class room

7. Reference Books:

Sr.

No.

Author Title Publishers & Address

1. Shri. S.P. Deshpande

Calculus for Polytechnics Pune Vidyarthi Graha Prakashan

Pune-30

2. Shri. B.M. Patel

Shri J.M. Rawal

Applied Mathematics Nirali Prakashan Mumbai

3. Dr. B.S. Grewal Higher Engineering Mathematics

Khanna Publishers 2/B, Delhi-6

4. J.N. Wartikar, P.N. Wartikar

A text book of Applied Mathematics

Pune Vidyarthigraha Prakashan, Pune- 411030

5. S.S.Sastry Introductory methods of

Numerical analysis

Prentice Hall of India –New

Delhi

6. M.K.Jain Numerical method for

Scientific and engineeing computation

Wiley estern

Page 43: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8 QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of

5

12 - - Any 2 out of

3

06

2. Any 2 out of

4

12 - - Any 2 out of

3

08

3. Any 2 out of 3

16 - - Any 1 out of 2

06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Page 44: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

Course : CE/ME/EE/IE/PE/CH/DE Semester : II

Subject : PHYSICS-II Subject Code: 120013

Group : B* Duration : 16 Weeks

2. TEACHING AND EXAMINATION SCHEME:

Scheme of Instructions & Periods per Week

No. of Papers, Duration & Marks

Scheme of Examination Scheme L/Pr/Cr.

L P D T Cr NP Hrs Mks SSL Theory

Paper T/W Pract. Oral Total

2 2 - - 4 1 3 80 20 80 25@ 50** - 175 2/ 2/ 4

3. RATIONALE:

The fundamental coverage under semester-I plus a continued similar way of progressive studies related

to laws of Physics forms a foundation for various branches of engineering.

4. OBJECTIVES:

The student will understand:

1) Light energy with its ‘dual’ nature, concept of photon and photo cell, utilization of ‘interference’, ‘diffraction’ and ‘polarization’

2) Concept of static charge and charges in motion, magnetic material, ‘Atomic conception/ atomic structure, arrangement of atom in solids’.

3) Concept of semi-conductor, Light/Electromagnetic waves in the form of stimulated radiation, ‘ ’Light as wave guide’,’ Ohmic resistance and zero resistivity’.

4) Non destructive testing technique . 5) Material with nano dimensions/ on atomic and molecular scale.

5. DETAILED CONTENTS:

A) THEORY CONTENTS:

SECTION-I

Marks Hours

Chapter 1

Optics

1.1 Photo electricity

Planck’s hypothesis, Photoelectric effect, Einstein’s equation, Types of Photocells, Applications ,Numerical

Problems. 1.2 Interference, Diffraction, Polarization

Interference, Thin films, Newton’s rings, Optical flatness, Diffraction, Diffraction grating.

Polarization, Optical activity and Polarimeter, Photoelasticity (general treatment).

12

08

03

03

Chapter 2

Electricity

Static Electricity

04

02

Page 45: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

2.11Coulomb’s law, Intensity and Potential, Numerical Problems.

2.12 Capacitance, Principle of capacitor, Parallel plate capacitor, ‘Combinations’, Energy stored, Numerical Problems.

06

02

2.2 Current Electricity

Specific resistance, e.m.f. and P.D.

Wheatsone’s bridge, Post office box, Potentiometer; Numerical problems.

2.3 Electromagnetism

Current carrying conductor in magnetic field,

‘ampere’, Moving coil and Mirror galvanometer, Shunt, Ammeter, Voltmeter, Numerical problems.

TOTAL

04

06

40

03

03

16

SECTION-II

Marks Hours

Chapter 3

Magnetism

Magnetic materials – ‘dia’, ‘para’, ‘ferro’; ‘Modern

concepts’, Magnetic hysteresis and magnetic shielding..

04

03

Chapter 4

Modern Physics

4.1 Bohr’s Theory

Structure of atom, Bohr’s postulates and Atom

Model,.Hydrogen spectrum and Rydberg constant. 4.2 Crystal Structure

Space lattice, Unit cell, Cubical crystal structure – SC, BCC, FCC,Co-ordination Number, Packing

density, Miller indices. 4.3 Band theory of Solids

Classification of materials into Conductors, Insulators, Semiconductors,P and N type Semiconductors, P-N

Junction. 4.4 LASERs and MASERs

Elementary ideas, Stimulated emission Ammonia gas Maser, Ruby Laser, He-Ne Laser, Holography.

4.5 Fiber Optics

Wave guide for light, Optical fibre, Step and Graded

index. 4.6 Superconductivity

Principle of Superconductivity, Meissner effect, Superconducting state materials, Properties, Applications.

06

06

06

06

02

02

02

02

02

02

01

01

Chapter 5 Nondestructive testing (NDT) US waves, Radiography, X-rays,Liquid penetration.

04 02

Chapter 6 Nanotechnology

Concept of manipulating matter on an atomic and molecular scale, and

of new materials with dimensions on the nano scale, applications. TOTAL

04

40

01

16

Page 46: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

B) PRACTICAL CONTENTS:

a) Experiments to be performed (Any 08)

1. Study of Spectrometer (Minimum Deviation and Refractive Index and Angle of Prism). 2. Wavelength of Light by Diffraction Grating.

3. Specific Rotation by Polarimeter. 4. ‘J’ by Electrical Method and Specific Heat of Oil by Electrical Heating

5. Use of Wheatstone’s Bridge and Post Office Box (Resistance, Specific Resistance and Temp. Coefficient of Resistance).

6. Use of Potentiometer (Principle, Comparison of e.m.f.s. of Cells, Internal Resistance of Cell and Calibration of Voltmeter with the Principle COMPULSORY and ANY ONE of the Other

Three). 7. Determination of Rydberg Constant.

8. Study of Crystal Structure. 9. Energy gap of a semiconductor.

10. Wavelength of Laser Beam (He-Ne) by Diffraction Grating.

b) Demonstrations (Any 03)

(i) Study of Photocell.

(ii) Spectra of Ionsed Gases. (iii) Study of Newton’s Rings.

(iv) Study of Photoelastic Bench. (v) Study of Para and Diamagnetism by Electromagnet.

(vi) Hysteresis by C.R.O. (vii) Optical Principles of O.H.P.

6. Term-Work:

Compulsory term-work on the list of experiments written in a journal and carrying 25 marks on timely submission basis specified at the index sheet of Physics Journal.

7. Scheme of Practical Examination:

(i) Each candidate will be examined in one experiment from among those prescribed in the

syllabus. The duration of the experiment will be two hours (with a coupling of Demonstration if any).

(ii) The performance of the candidate in the practical examination will be assessed out of 50 marks as shown in the following scheme.

Scheme of Assessment:

(a) Connections, adjustments and observations ……………………..20 Marks

(b) Circuit Diagram, figures and tabulation …………………………..10 Marks (c) Formula, calculations and graphs if any …………………………..10 Marks

(d) Oral ………………………………………………………………...05 Marks

(e) Correct answer or appropriate result ………………………………05 Marks

Total ……………………………….50 Marks

(iii) Each candidate will be jointly examined by both External and Internal Examiners. (iv) Certain demonstrations are coupled with certain conventional experiments during the

examination. Marks allotted for demonstration are 15 and marks for conventional experiments are 35. The conventional experiment is assessed out of 50 as mentioned under (iv) in the above

scheme and then converted out of 35. Assessment of a demonstration is judged by answers (oral or written) given by candidate in front of the relevant demonstration setup.

Page 47: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

(v) If any candidate is unable to draw a correct circuit diagram, the same may be given by the

examiner on request so that the candidate may continue the experiment. However, five marks will be deducted for the same.

(vi) While assessing, the overall performance and the ability of the candidate to handle the apparatus independently, will be considered.

8. IMPLEMENTATION STRATEGY (PLANNING):

(i) Theory – Lesson Plan (ii) Practical – Scheme of marking for T/W, Scheme of assessment for Practical Examination.

9 (a). TEXT BOOKS:

Sr.No. Author Title Edition Year of

Publication

Publishers &

Address

1.

R.K. Gaur

and S.L. Gupta

Engineering

Physics

Any 1981-96

2001 Reprint 2004, 2008

Dhanpat Rai &

Sons, New Delhi

2. M.R. Shrinivasan

Physics for Engineers

Any 1976 New Age International, New

Delhi

3.

P.G. Kshirsagar

and M.N. Avadhunuhu

A Text Book of

Engineering Physics

Any 1992 Reprint 1993 till 2005 S. Chand and Co.

Ltd, New Delhi

4. Gambhir, Durgapal

and Banerjee

Introductory Physics -

Vol-1,2 &3.

Any 1972 Wiley Eastern

9 (b). REFERENCE:

Sr.No. Author Title Edition Year of Publication Publishers

& Address

1. Resnik and

Halliday

Physics Vol. 1 &

2

Any 1986 Wiley

Eastern

2. B.L. Theraja

Engineering Physics

Any 1962

Reprint 1974-87

S. Chand and

Co. Ltd, New Delhi

3. B.L. Theraja

Modern Physics Any 1975,

1976,78,79,80,81,82,83. S. Chand and Co. Ltd, New

Delhi

4.

Avinash

Kapoor, Partha Goswami

An Introduction

to Nanophysics and Nanotechnology

Any 2012 ISBN 978-

81-8487-040-4

QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5 12 - - Any 2 out of 3 06

Page 48: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

2. Any 2 out of 4 12 - - Any 2 out of 3 08

3. Any 2 out of 3 16 - - Any 1 out of 2 06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Total - 40 - 40 - 20

Page 49: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1.Subject Detailss

Subjects: Workshop Practice Subject Code : 120009

Course:ME/PE/CH Semester – I

Course: CE/EE/IE/DE Semester – II

Group: C* Duration – 16 weeks

2. Teaching and Examination Scheme

Teaching Scheme

Credits

Examination Scheme and Maximum Marks

Theory Practical Paper

Theory Sessional

Term

Work

OR Total

Hrs per Week

Hrs Per Week

Hrs NP Mks

01 04 05 - - - - - 50 @ 50

3.Rationale

Production is a value adding activity, where raw material is converted into finished goods, by using

different resources like man, machine, materials, methods etc. Handling of different tools &

equipments is a part of production system. So students should be aware of methods of handling of

different tools and safe practices. This subject deals with identification of tools, its applications,

precautions, handling procedures, etc.

4.Objectives

The student will able to

1. Know basic workshop processes.

2. Select right tools and right manufacturing processes for performing the job correctly.

3. Identify, select and use various marking, measuring, holding, striking and cutting tools &

equipments.

4. Read dimensions and able to do marking required for making the job

5. Use different fitting tools like files, hacksaws, hammers, try square, chisel (crosscut chisel),

centre punch etc and carpentry tools like cross-cut saw, jack plane, chisel, rasp file, marking

gauge, mallet, scriber etc.

6. Operate, control different machines and equipments.

7. Inspect the job for specified dimensions

8. Produce jobs as per specified dimensions.

9. Adopt safety practices while working on various machines.

5. Detailed Contents

Sr.No. Details Of Theory Contents Period

Page 50: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

01 CARPENTRY SHOP

1. Introduction.

2. Various types of Woods.

3. Different types of Tools, Machines and Accessories.

04

02 WELDING SHOP

1. Introduction

2. Types of Welding, ARC welding, Gas welding, Gas Cutting.

3. Safety Precautions in Welding Safety Equipments and its use in Welding Process

04

03 FITTING SHOP

1.Introduction

2. Various Marking, Measuring, Cutting, Holding and Striking tools.

3. Different fitting operation like Chipping, Filing, Right Angle, Drilling, Tapping.

4. Working Principle of Drilling machine, Tapping dies its use.

5. Safety Precautions and Safety Equipments.

04

04 SHEET METAL SHOP.

1. Introduction

2. Various types of Tools, Equipments and Accessories.

3. Different types of operations in Sheet Metal Shop.

4. Soldering and Brazing.

5. Safety Precautions

04

Total 16

Practical

Sr.No. Details of Practical Contents

01 CARPENTRY & PATTERN MAKING SHOP (Group of TWO Students)

1. Demonstration of different Wood Working Tools / Machines.

2. Demonstration of different Wood Working Processes, like Planning, Marking,

Chiseling, Grooving, etc.

3. One Carpentry and one Pattern Making job for group of students.

02 WELDING SHOP

1. Demonstration of different Welding Tools / Machines.

2. Demonstration on Arc Welding, Gas Welding, Gas Cutting and Rebuilding of

Page 51: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Broken parts with Welding involving Butt and Lap joint.

03 FITTING SHOP (Group of TWO Students)

1. Demonstration of different Fitting Tools and Drilling Machines and Power

Tools.

2. Demonstration of different operations like Chipping, Filing, Drilling, Tapping,

Cutting etc.

3. Two job for a group of student involving practice of Chipping, Filing, Drilling,

Tapping, Cutting and Sawing operations.

04 SHEET METAL SHOP

1. Demonstration of different Sheet Metal Tools.

2. Demonstration of different Sheet Metal Operations like Sheet Cutting, Bending,

Lancing, Soldering and Brazing.

1] The instructor shall give demonstration to the students by preparing a specimen job as per

the job drawing.

2] The workshop diary/journal shall be maintained by each student duly signed by instructor of

respective shop

3] Journal should contain

a. Sketches of different tools used in workshop with practical applications.

b. Materials used for different job with their properties, advantages, disadvantages and

applications.

c. Job/Part Drawings.

4] Journal should be certified by the lecturer incharge.

7. References

1. S.K. Hajara Chaudhary- Workshop Technology-Media Promotors and Publishers,New

Delhi

2. B.S. Raghuwanshi- Workshop Technology- Dhanpat Rai and Sons, New Delhi

3. R K Jain- Production Technology- Khanna Publishers, New Delhi

4. H.S.Bawa- Workshop Technology- Tata McGraw Hill Publishers,New Delhi

Page 52: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vile Parle Kelavani Mandal`s SHRI BHAGUBHAI MAFATLAL POLYTECHNIC

TEACHING AND EXAMINATION SCHEME

DISCIPLINE: INDUSTRIAL ELECTRONICS w.e.f. batch admitted June,2012 (Progressively)

SEMESTER: Third

Sr No

Subject Name(code) Preq Sub

Code

Scheme of Instructions and Periods per week

Theory Paper Duration and

Marks

Scheme of Examination Gr Scheme

L/P/Cr

L P D T Cr Hrs Mks SSL Paper

TW PR OR Total

1 Applied Mathematics(120022)

- 3 - - 1 4 3 80 20 80 - - - 100 C* 404

2 Electronic Workshop

Technology(120402)

- 2 2 - - 4 - - - - 50@ 50** - 100 C 224

3 Electronic Devices

and Circuits-I(120403)

- 4 2 - - 6 3 80 20 80 25@ 50** - 175 C* 426

4 Electronic Materials Components &

Devices(120404)

- 3 2 - - 5 3 80 20 80 25@ - 50** 175 C 325

5 Principles of Digital

Techniques(120702)

- 3 2 - - 5 3 80 20 80 25@ 50** - 175 C* 325

6 Circuits and Networks(120405)

- 4 2 - - 6 3 80 20 80 25@ 50** - 175 C* 426

TOTAL 19 10 - 1 30 No.of Papers=05

100 400 150 200 50 900

TOTAL PERIODS = 30 TOTAL MARKS = 900

* Compulsory, # Award Winning, ** Assessed by Internal and External Examiners Jointly, @ Assessed by Internal Examiner Only

L- Lecture Period, P- Practical Period, D-Drawing Practice Period, T- Tutorial, Cr- Credit, SSL- Sessional, TW- Term Work, PR- Practical, OR- Oral Gr- Group, B - Basic, C - Core, A - Application, M - Management

Head of Department Principal

Page 53: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:-

Course:IE/DE/EE SEMESTER: III

Subject: Applied Mathematics Code: 120022

Group: C* Compulsory

2. TEACHING AND EXAMINATION SCHEME:-

Scheme of

instruction & Periods Per

Week

Theory Paper

duration & marks

Scheme of Examination Gr Scheme

L/Pr/Cr

L P D T Cr Np Hrs Mks SSL Theory

Paper

T/W PR OR Total

3 0 - 1 4 1 3 80 20 80 -- -- -- 100 C* 404

3. RATIONALE:-

Applied Mathematics is classified as Basic Science subject which intends to teach

students the facts, concepts and principles of Mathematics that can be applied to solve problems

in Electrical/Electronics Engineering.

4. OBJECTIVES:-

Students will be able to understand

1. Integral calculus and its various applications.

2. Laplace transform and differential equations.

3. Statistics and Probability.

5. DETAILED CONTENTS:-

SECTION-I

HOURS MARKS 1 INTEGRAL CALCULUS

1.1 Integration as inverse of differentiation 1.2 Methods of Integration: substitution, parts, partial fraction

1.3 Definite integral and their properties, reduction formulae (No

Proofs)

16 24

2 APPLICATIONS OF DEFINITE INTEGRALS

2.1 Length of arc 2.2 Areas

2.3 Volumes 2.4 Centre of Gravity

2.5 Moment of Inertia 2.6 Mean value and R.M.S. Value

08 08

3 STATISTICS 3.1 Mean, median, mode, standard deviation, cumulative frequency

3.2 Measures of dispersion, - range , mean deviation 3.3 Combined mean , combined standard deviation

3.4 Co-efficient of variance 3.5 Comparisons of two sets of observations

08 08

TOTAL 32 40

Page 54: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

SECTION-II 4. LAPLACE TRANFORM

4.1 Introduction, definitions 4.2 Laplace transforms of elementary functions , definitions

4.3 Laplace transforms of elementary functions tn, e

at sin (at), cos

(at)

4.4 Properties of laplace transform 4.5 Inverse laplace transform

4.6 Transform of derivatives and integrals

10 12

5 DIFFERENTIAL EQUATONS 5.1 Formation of differential equation

5.2 Differential equations of first order and first degree 5.3 Linear differential equations of higher order with constant

coefficients 5.4 Applications of differential equations

5.5 Solution of linear differential equation using Laplace transform

14 20

6 PROBABILITY

6.1 Definition of random experiments, Sample space 6.2 Event, occurrence of event, types of event

6.3 Definition of probability, addition and multiplication theory of Probability

6.4 Conditional probability, Bay’s theorem

08 08

TOTAL 32 40

6. Implementation Strategy(planning): Conducting lectures as per lesson plan and conducting

tutorial in the same class room.

7. Reference Books:

Sr.

No.

Author Title Publishers &

Address

1. Shri. S.P.

Deshpande

Calculus for

Polytechnics

Pune Vidyarthi Graha

Prakashan , Pune-30

2. Dr. B.S. Grewal Higher Engineering Mathematics

Khanna Publishers 2/B, Delhi-6

3. Schaum’s outline series

Probability McGraw Hill

4. Schaum’s outline

series

Laplace Transform McGraw Hill

Page 55: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of

5

12 - - Any 2 out of

3

06

2. Any 2 out of

4

12 - - Any 2 out of

3

08

3. Any 2 out of 3

16 - - Any 1 out of 2

06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Page 56: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

Course: Diploma in Industrial Electronics

Semester: III

Subject: Electronic Workshop Technology

Code: 120402

Group: C

Optional

2. TEACHING AND EXAMINATION SCHEME: Teaching Scheme Credits Examination Scheme and Maximum Marks

Th Hrs Per wk

Practical Hrs Per Wk

Paper TH Sessional T/W Pract

Total Hrs NP Mks

02 02 04 - - - - - 50@ 50** 100

3. RATIONALE: The printed circuit board has evolved as the main inter connection technology in modern electronics. The rise of surface mount technology has created a major change in most elements of design,

technology and assembly of PCB. Soldering quality plays a major role in reliability of electronic circuit.

4. OBJECTIVES: After studying the subject the student will be able to:

1. Do the reliable soldering 2. Identify and select proper connector for a circuit

3. Do the cable forming 4. Design and wind a transformer

5. Test coils and transformer

6. Draw an artwork for PCB 7. fabricate and test single sided PCB

5. DETAILED CONTENTS: Chapter Contents Hours

1 1.0 Solder and soldering techniques: 10

1.1 Principles of solder connections

1.2 Solder alloys 1.3 Solder fluxes

1.4 Forming techniques 1.5 Soldering techniques

1.6 Solder mask 1.7 Reflow soldering techniques

1.8 Testing and quality control 2 2.0 Inter connection techniques: 03

2.1 BNC connection 2.2 D-type connection

Page 57: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

2.3 FRC connector 2.4 Cable forming

2.5 Wire wrapping tool and wire wrapping 2.6 Crimping

3

Wound components:

03

3.1 Different types of cores and their characteristics

3.2 Testing of coils and transformers 3.3 Manual and automatic winding machines

4 Study of software package for a PCB design 03

Design of single sided & double sided PC B for given circuit diagram

5 5.0 PCB fabrication: 10

5.1 Film master production 5.2 Properties of copper clad laminates

5.3 Board cleaning before pattern transfer 5.4 Photo printing

5.5 Screen printing 5.6 Plating

5.7 Etching 5.8 Testing

5.9 Introduction to multilayer PCB 6 6.0 Surface mount devices and technology: 03

6.1 Introduction to surface mount technology 6.2 Advantages of SMT

6.3 Types of SMT assemblies 6.4 SMD types

6.5 Costing of SMT equipment and assembly 6.6 Inspection methods and rework stations in SMT

Practice 1. Assignment on Surface Mount technology

Total

32

6. LIST OF EXPERIMENTS 1. Soldering techniques. 2. Desoldering techniques. 3. Cable forming. 4. BNC connector soldering. 5. Transformer winding. 6. Testing of mains transformer. 7. P.C.B fabrication : single and double sided PCB 8. Assignment on different tools used in electronic workshop 9. Assignment on Surface Mount technology. 10. BNC or D-type connecting wiring.

7. IMPLEMENTATION STRATEGY (PLANNING): 1. Teaching Plan 2. Jobs on different topics

Page 58: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8. REFERENCE BOOKS:

Sr. Author Title Publishers & Address

1 Walter C. Bosshart Printed Circuit Board-design and

Technology TMH, New Delhi

2 NTTF Electronics Center Bangalore

PCB Design and Fabrication NTTF Electronics Center Bangalore

3 Clyde F. Coombs Jr. Printed circuit workbook series McGraw Hill

Page 59: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS :

Course:Diploma in Industrial Electronics Semester: III

Subject: Electronic Devices & Circuits-1 Code:120403

Group: C* Compulsory

2. TEACHING AND EXAMINATION SCHEME:

3. RATIONALE :

This course enables the students to know symbol, construction, working & applications

of basic electronic devices like diodes & transistor.

4. OBJECTIVES :

After studying the subject the students will be able to

1. Understand the symbol, construction & characteristics of crystal diode, zener diode & BJT.

2. Understand and explain working of different rectifier & filter circuits. 3. Understand the working & application of BJT based single stage & multistage amplifiers

& their frequency response curve. 4. Analyse BJT amplifier using its h-model.

5. Design unregulated power supply & R.C. coupled amplifier.

5. DETAILED CONTENTS :

Teaching Scheme Credits Examination Scheme and Maximum Marks

Th Hrs

Per wk

Practical

Hrs Per Wk

Paper

Sessional

T/W Pract

Total

Hrs NP Mks

04 02 06 03 01 80 20 25@ 50** 175

Chapter Content SECTION – I

Hours Marks

1. 1.0 Semiconductor diode characteristics :

1.1Open circuited p.n. junction as a diode, current

components in a P.N. diode 1.2V-I. characteristics and its temperature dependence,

1.2.1Diode resistance 1.2.2 Load line concept

1.3Piecewise linear diode model 1.4Transition capacitance

1.5Diode switching time 1.6Junction diode data sheet.

05 7

Page 60: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

2. 2.0 Breakdown diodes :

2.1 Zener diode

2.2 Schottkey diode 2.3 V-I. characteristics

2.4 Zener diode voltage regulator 2.5 Zener and schottkey diode data sheet.

04 5

3. 3.0 Rectifiers and Filters :

3.1 Half wave rectifier

3.2 Full wave rectifiers 3.3 Ripple factor, T.U.F., Ratio of rectification, PIV

3.4 Filters : L.filter, C.filter, L-C, C-L-C, Multiple L-C. and C-R-C. filter their ripple factor with assumptions and voltage

regulation. 3.5 Problems based on above topics

3.6 Design of unregulated power supply using L-C & C-L-C filters.

10 12

4. 4.0 Clipping and Clamping circuits :

4.1 Series clipper 4.2 Shunt clipper

4.3 Biased clipper 4.4 Positive clamper

4.5 Negative clamper

05 6

5. 5.0 BJT :

5.1 The junction transistor 5.2 Transistor current components

5.3 Transistor as an amplifier 5.4 Transistor configurations and characteristics

5.5 Graphical analysis of the C.E. configuration. Analysis of cut-off and saturation regions

5.6 Typical transistor junction voltages 5.7 Transistor switching times and rating

5.8 Transistor as a switch.

08 10

SECTION – II

6.0 Transistor biasing and thermal stabilization :

6.1 The operating point

6.2 Effect of temperature on operating point 6.3 Bias stability

6.4 Different biasing circuits and their thermal stability 6.5 Bias compensation techniques

6.6 Problems based on above topics.

08

11

Page 61: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6. List of Experiments:

1. Study of CRO. 2. P-N junction diode characteristics.

3. Zener diode characteristics. 4. Zener diode as voltage regulator.

5. Half wave full wave rectifier with and without filter. 6. I/P and O/P characteristics of C.B. configuration.

7. I/P and O/P characteristics of C.E. configuration. 8. Clamping and clipping circuits.

7. 7.0 Transistor at low frequencies :

7.1 Black box theory

7.2 h-parameters 7.3 Small signal low frequency transistor hybrid model.

7.4 Analysis of C.E. configuration using accurate hybrid model

7.5 Approximate h-equivalent circuit for the three transistor configurations and their comparison

7.6 Analysis of common emitter amplifier with an emitter resistance

7.7 Analysis of R.C. coupled multistage amplifier using h-parameter

7.8 Examples based on above topics.

08 10

8. 8.0 Frequency response of BJT amplifiers :

8.1 Single stage C.E. amplifier and its frequency response

8.2 Effect of coupling and emitter bypass capacitors on low frequency response of an amplifier

8.3 Hybrid transistor model at high frequencies 8.4 C.E. short circuit current gain

8.5 Gain-bandwidth product 8.6 Examples based on above topics

8.7 Design of single stage R-C coupled C-E amplifier.

10 12

9. 9.0 Multistage amplifiers :

9.1 Decibel

9.2 Types of coupling 9.2 1. Direct coupled

9.2.2. R.C. coupled 9.2.3 Transformer coupled amplifiers and their frequency

response 9.3 Effect of cascading on B.W. and gain (Av)

9.4 Classification of amplifiers.

Total

06

64

7

80

Page 62: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

9. C-E amplifier. 10. Coupling and bypass capacitors.

11 Two stage R-C coupled amplifier. 12. Operating point and AC/DC load line.

13. C.B. amplifier. 14. Measurement of C.E. h-parameters.

7. IMPLEMENTATION STRATEGY (PLANNING) :

1. Teaching Plan

2. Minimum 12 practicals or assignments

8. REFERENCE BOOKS :

Sr.N

o.

Author Title Publishers & Address

1. Millman and

Halkias

Integrated electronics McGraw Hill International

Edition

2. Millman and

Halkias.

Electronic devices and

circuits

McGraw Hill

3. Robert Boylsted Electronic devices and circuits theory

PHI, New Delhi

4. Allen Mottershead

Electronic devices and circuits

PHI, New Delhi

5. Bhargava Basic electronics and linear circuits

TTTI, Chandigarh

TMH,New Delhi

6. M.M. Shah Design of electronic

circuits & computer aided design

Wiley Easten Mumbai

7. P.N. Thakkar,

Sunil Shah

Design of basic

electronic circuits

Jeevandeep Prakashan

9. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5

12 - - Any 2 out of 3

06

2. Any 2 out of 4

12 - - Any 2 out of 3

08

3. Any 2 out of

3

16 - - Any 1 out of

2

06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Page 63: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS :

2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks

Th Hrs Per wk

Practical Hrs

Per Wk

Paper TH Sessional T/W Oral Total

Hrs NP Mks

03 02 05 03 01 80 80 20 25@ 50** 175

3. RATIONALE :

This course enables the students to know materials used for manufacturing of component

& devices with their characteristics like resistive, capacitive and inductive material.

4. OBJECTIVES :

1. After studying this subject the student will be able to understand symbol, materials and their

characteristics. 1. Understand the properties of different materials.

1. Understand the fabrication technique for integrated circuits.

5. DETAILED CONTENTS :

SECTION-I

Chapter Content

Hours Marks

1. 1.0 Conductor / Semiconductor :

1.1 Conductivity

1.2 Effect of temperature of conductivity 1.3 Resistor Temperature Coefficient

1.4 Classification like low resistance and high resistance materials

1.5 Super conductivity materials, application.

05 09

2. 2.0 Insulators :

2.1 Dielectric constant 2.2Dielectric strength, Dielectric loss, Dielectric

polarization, 2.3 Various kinds of dielectric materials and their

application in electronics.

05 08

Course: Diploma in Industrial Electronics Semester: III

Subject: Electronic Materials, Components & Devices Code: 120404

Group: C Optional

Page 64: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3. 3.0 Magnetic Materials :

3.1Electromagnetic domain theory

3.2Ferro-magnetic materials, B.H. Curve, Hysterises loop, 3.3 Effect of air gap on hysterisis.

05 08

4 4.0 Components :

4.1 Reliability and specification of Electronic passive and

active components 4.2 Stability, drift, failure.

02 03

5. 5.0 Resistors :

5.1 Brief manufacturing process

5.2 Rating selection criteria 5.3 Types of resistors and applications variable resistors.

04 07

6 6.0 Cells and batteries :

6.1 Concept of ideal voltage and current sources.

6.2 Types of batteries and their capacity.

03 05

SECTION-II

7. 7.0 Capacitors :

7.1 Brief manufacturing process

7.2 Rating 7.3 Different types

7.4 Effect of frequency on capacitance 7.5 Applications.

04 07

8. 8.0 Inductors :

8.1 Types of inductors, Quality factor

8.2 R.F. coils, saturable inductors 8.3 Review of basics of transformer, Leakage inductance,

core and copper loss 8.4 Types of transformers and applications.

06 10

9 9.0 Relays ,switches and display :

9.1 Relay characteristics, contact rating, hold, Non pick up, Drop out, Transfer time etc.

9.2 Classification of relays, Rating and specifications. 9.3 Different types of switches like thumb wheel, Lever

wheel, Rotary selector types, Matrix type switches, Sensing switches, Reed relays

9.4 Different types of display devices (LED ,LCD)

05 08

10. 10.0 IC Fabrications :

10.1 Monolithic IC fabrication techniques

10.2 Hybrid IC’s (thin and thick films) Environmental testing method

10.3 VLSI.

Total

09

48

15

80

Page 65: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6.LIST OF EXPERIMENTS:

1. Study of Resistors.

2. Study of Capacitors. 3. Study of Diodes and transistors.

4. Testing of devices. 5. Study of relays and switches.

6. Study of LED display. 7. TTL characteristics.

8. Testing of components using curve tracer. 9. To study frequency response of capacitor.

10. To study frequency response of inductor. 11. Assignment on Cells and batteries.

12. Assignment on Insulator.

7.IMPLEMENTATION STRATEGY (PLANNING) :

1 Teaching Plan

2 Minimum 12 practicals or assignments

8. REFERENCE BOOKS:

9. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5

12 - - Any 2 out of 3

06

2. Any 2 out of 4

12 - - Any 2 out of 3

08

3. Any 2 out of

3

16 - - Any 1 out of

2

06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Sr. Author Title Publishers & Address

1. Madhuri Joshi.

Electronic Material & Components

A.H.Wheeler & Co.Ltd Allahabad

2. Prof. S.D.

Raut

Electronic Material &

Component Devices & Technology

Technical Publications

Pune

Page 66: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS :

2. TEACHING AND EXAMINATION SCHEME :

3. RATIONALE :

Digital device technology plays a very important role in the modern world. Digital circuits are

used in various day to day applications like toys, computers, calculators, satellites, microwave ovens, cellular phones etc. The digital systems with some kind of human interface will perform

highly complex tasks with very high reliability and speed, unattainable by any other means. This course enables the students to learn the basic principles used in digital systems.

4. OBJECTIVES :

After studying the subject the student will be able to 1. Convert from one code to other.

1. Write the Boolean expression for a logic circuit. 1. Design combinational and sequential digital circuit.

1. Draw and analyse A/D and D/A conversion circuits.

5. DETAILED CONTENTS :

SECTION-I Chapter Content Hours Marks

1. 1.0 Number system and codes :

1.1 Binary

1.2 Octal 1.3 Hexadecimal

1.4 BCD 1.3 Gray

02 03

2. 2.0 Basic logic gates, Universal gates :

2.1 Boolean algebra

2.2 DeMorgan’s Theorems

03 06

3. 3.0 Arithmetic elements :

3.1 Half adder, Full adder

3.2 Half subtractor, Full subtractor 3.3 1’s complement, 2’s complement subtraction

03 05

Course: Diploma in Industrial Electronics Semester: III

Subject: Principles of Digital Techniques Code:

120702

Group: C* Compulsory

Teaching Scheme Credits Examination Scheme and Maximum Marks

Th Hrs Per wk

Practical Hrs

Per Wk

Paper TH Sessional T/W Pract

Total

Hrs NP Mks

03 02 05 03 01 80 80 20 25@ 50** 175

Page 67: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3.4 BCD adder

4. 4.0 Design of combinational circuits :

4.1 K Map

4.2 SOP and POS forms of equations 4.3 Min terms, Max terms

4.4 Design of circuits using universal gates

08 13

5. 5.0 Study of MSI, LSI circuits :

5.1 Decoders, Encoders 5.2 Multiplexers, Demultiplexer

5.3 4 bit parallel adder 5.4 4 bit comparator

5.5 Parity generator, checker 5.6 Arithmetic and logic unit

5.7 PLA, PLD

08 13

SECTION-II 6. 6.0 Sequential circuits :

6.1 Difference between combinational and sequential circuits. 6.2 Triggering of sequential circuits.

6.3 Flip flops – R-S, J-K-T, and D types. 6.4 Counters – Synchronous and asynchronous basic concept and

design using excitation tables of flip flops e.g. Binary, BCD, Up/Down, Pre settable counters.

6.5 Four digit up/down counter IC 7217. 6.6 Shift registers – serial and parallel shift, universal shift register,

and ring counter.

09 15

7.0 Semi-conductor memories :

7.1 Random Access Memory : Static memory cell,

7.2 Dynamic memory cell, Internal organization, Read/Write operation.

7.3 Read Only Memory: Erasable Programmable ROM, EEPROM. 7.4 Memory Expansion – Serial and parallel expansion.

7.5 Study of memory ICs.

06 10

8. 8.0 Logic families :

8.1 Comparative study of different logic families like TTL, CMOS,

ECL etc. considering following characteristics: Logic levels, Power dissipation, Fan in / Fan out, Noise immunity, Speed of operation.

8.2 Interfacings of ICs of different logic families.

03 05

Page 68: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

9. 9.0 Study of A/D & D/A Converters:

9.1 Study of Analog to Digital conversion techniques successive approximation A/D converter – Dual slope A/D conversion, Flash

A/D conversion, ICs based on each conversion method. 9.2 Study of Digital to Analog conversion Binary weighted resistor

method, R-2R, Ladder method, ICs based on D/A conversion technique.

Total

06

48

10

80

6. List of Experiments:

1. Study of logic gates.

2. Verification of De-Morgan’s theorem. 3. NAND as a universal gate.

4. NOR as a universal gate. 5. Study of half and full adders.

6. Study of decoder. 7. Study of BCD to seven segment decoder/driver.

8. Study of multiplexer. 9. Designing of combinational circuit.

10. Study of JK flipflop. 11. Study of D type flip flop

12. Study of decade counter. 13. Study of four bit parallel adder.

14.Study of DAC. 15. Study of ADC.

16. 4-bit comparotor. 17. Parity Generator and Checker.

18 Study of ALU. 19. Shift Registor.

7. IMPLEMENTATION STRATEGY (PLANNING) :

1. Teaching Plan 2. Minimum 12 practicals/assignments.

Page 69: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8. REFERENCE BOOKS:

Sr.N

o.

Author Title Publishers & Address

1. Albert Paul Malvino & Donald P. Leach

Digital Principles & Application

Mc-Graw Hill International

2. Morris Mano Digital Logic & Computer Design

PHI, New Delhi

3. James Bignell & Robert Donovan Digital Electronics Delmar & Thomson

Learning

4. TTL Data Sheets

- -

5. Intersil Data Sheets - -

6. National Semi-conductor Data Sheets

- -

7. R.P. Jain. Modern Digital Electronics. TMH

9. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5

12 - - Any 2 out of 3

06

2. Any 2 out of 4

12 - - Any 2 out of 3

08

3. Any 2 out of

3

16 - - Any 1 out of

2

06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Page 70: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

Course:Diploma in Industrial Electronics Semester: III

Subject: Circuits & Networks Code:120405

Group: C* Compulsory

2. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory

Hrs. Per Week

Practical

Hrs. Per Week

Paper TH SSL T/W Oral

Total

Hrs NP Mks

04 02 06 03 01 80 80 20 25@ 50** 175

3. RATIONALE:

This first course in circuit analysis and synthesis lays down foundations for many vital concepts which will be developed in the subsequent courses.

4. OBJECTIVES:

After studying the subject the student will be able to 1. Analyze AC/DC circuits using basic analysis techniques.

2. Synthesis of circuits using parameters. 3. Find transient response of first order RC & RL circuits.

4. Understand concepts of mutual/coupled circuits.

5. DETAILED CONTENTS :

SECTION-I

Chapter Content Hours Marks 1. 1.0 Network analysis and theorems :

Loop and Nodal analysis of linear ckts., Superposition, Norton, Millman and Maximum power transfer theorems,

Their practical & theoretical proofs. (wherever applicable).

12 15

2. 2.0 A.C. Circuits :

2.1 Frequency response and approximate plots (Bode’s plots) of following ckts – Compensated attenuator, R.C. low pass

and high pass filters, lead and lag networks. The transfer functions of these circuits should also be derived.

2.2 Series R-L-C and parallel R-L-C ckt. Series and parallel

06

08

08

10

Page 71: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

resonance. Derivations for frequency if resonance. Selectivity, Bandwidth and Q pt. Concept.

3. 3.0 Two Port Networks :

Z,Y,H parameters and their conversion into each other.

06 07

SECTION-II

4. 4.0 Transient Response :

4.1 Periodic switching of R-L and R-C ckts., Rise and fall

times, charging and discharging process 4.2 Derivation of equation for voltage across capacitor &

inductor when switched on to a DC/AC supply 4.3 Differentiator and Integrator ckts.

4.4 Solutions of linear differential equations by classical method and its implication in transient response

12 15

5. 5.0 Transmission Lines :

5.1 General equations of transmission lines 5.2 Expression for primary and secondary constants of a line

5.3 Open circuited line, characteristics impedance, 5.4 Loading of a line, matched conditions

5.5 Reflection & reflection co-efficient.

06 08

6. 6.0 Coupled circuit :

6.1 Mutual self and driving pt. impedance 6.2 Transfer impedance

6.3 Inductive and capacitive coupling 6.4 Transformer impedance matching equivalent circuit

06 07

7 FILTER THEORY:

LC Filters ,Constant K & M derived type filters, half section, design of low pass, High pass, Band pass & Band reject filters

using constant K & M derived filter structure (I & II type)

TOTAL

08

64

10

80

6.LIST OF EXPERIMENTS:

1. Study of Thevenin’s theorem. 2. Study of Norton’s theorem.

3. Study of Superposition theorem. 4. Study of Maximum power transfer theorem

5. Study of R-C high pass and low-pass filters.

Page 72: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6. Study of Y parameters. 7. Study of Z parameters.

8. Study of Integrating circuits. 9. Study of Differentiating circuit.

10.. Study of Series R-L-C circuits. 11. LC filter assignment.

12. Assignment on coupled circuits. 13. Study of attenuator .

14. Study of transmission line.

7. IMPLEMENTATION STRATEGY (PLANNING) :

1. Teaching Plan

2. Minimum 12 practicals/assignments in the term

8. REFERENCE BOOKS :

Sr. No. Author Title Publishers &

Address

1. Philip Cutler Electronic ckt. Analysis – Vol.1 McGraw Hill

2. Kaur et al Networks, Transmission lines &

filters

PHI, New Delhi

3. Sudhakar Shyamsunder Circuits & Networks TMH

9. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5

12 - - Any 2 out of 3

06

2. Any 2 out of

4

12 - - Any 2 out of

3

08

3. Any 2 out of

3

16 - - Any 1 out of

2

06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Page 73: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vile Parle Kelavani Mandal̀ s

SHRI BHAGUBHAI MAFATLAL POLYTECHNIC TEACHING AND EXAMINATION SCHEME

DISCIPLINE: INDUSTRIAL ELECTRONICS w.e.f. batch admitted June,2012 (Progressively)

SEMESTER: Fourth

Sr

No

Subject Name(code) Preq

Sub Code

Scheme of Instructions

and Periods per week

Theory Paper

Duration and Marks

Scheme of Examination Gr Scheme

L/P/Cr

L P D T Cr Hrs Mks SSL Paper

TW PR OR Total

1 Industrial Electronics

(120406)

120403 4 2 - - 6 3 80 20 80 25@ 50** - 175 A* 426

2 Principles of Analog

Techniques(120407)

- 3 2 - - 5 3 80 20 80 25@ 50** - 175 C* 325

3 Measurement Techniques &

Measuring Instruments(120408)

- 3 2 - - 5 3 80 20 80 25@ - 50** 175 C* 325

4 Electronic Devices & Circuits-II(120409)

120403 4 2 - - 6 3 80 20 80 25@ 50** - 175 C* 426

5 Mini Project(120410) 120403 - 2 - - 2 - - - - 50@ - 50 M

*

022

6 Electronic Drawing

and Drafting(120411)

- 2 3 - - 5 - - - - 50@ 50** 100 C 235

7 JAVA Programming (120705)

- 3 2 - - 5 - - - - 50@ 50** - 100 A 325

TOTAL 19 15 34 No.of Papers=04

80 320 250 200 100 950

TOTAL PERIODS = 34 TOTAL MARKS = 950

* Compulsory, # Award Winning, ** Assessed by Internal and External Examiners Jointly, @ Assessed by Internal Examiner Only

L- Lecture Period, P- Practical Period, D-Drawing Practice Period, T- Tutorial, Cr- Credit, SSL- Sessional, TW- Term Work, PR- Practical, OR- Oral Gr- Group, B - Basic, C - Core, A - Application, M - Management

Page 74: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

Course: Diploma in Industrial Electronics Semester: IV Subject: Industrial Electronics Code:120406 Group: A* Compulsory

2. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits

Examination Scheme and Maximum Marks

Theory

Hrs. Per Week

Practical

Hrs. Per Week

Paper TH SSL T/W Pract

Total

Hrs

NP

Mks

04 02 06 03 01 80 80 20 25

@

50** 175

3. RATIONALE:

To become an efficient electronic technician, knowledge of power devices, trigger devices and

their applications are essential. This subject is an introductory exposition of the power semiconductor devices, their characteristics and applications

4. OBJECTIVES:

After studying the subject the student will be able to:

1. Draw equivalent circuits, characteristics and understand the working of all power devices/trigger devices like Triac, GTO, IGBT, and MOSFET.

2. Draw and analyze the waveforms of single half/full converter, 3φ half/full converter with resistive and inductive loads.

3. Draw and design regulated / controlled power supply , SMPS and UPS 4. Understand the principles, merits and de-merits of Induction/ Di-electric heating.

5. DETAILED CONTENTS:

Chapter Content

SECTION – I

Hours Marks

1. 1.0 Power semiconductor devices:

1.1 Introduction

1.2 Power diodes

1.2.1 General Purpose diodes, fast recovery diodes,

schottky diode, MOS diodes 1.3 Power transistors

1.3.1 Power BJT 1.3.2 Power MOSFET

1.4 Thyristors

15 20

Page 75: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1.4.1 Schottky diode, SCR, GTO, IGBT ,MGT, ETO ,MTO, IGCT, Bidirectional devices-

DIAC,TRIAC,RCT 2. 2.0 Triggering Methods, devices and circuits:

2.1 Introduction

2.2 Thyristor turn-on method

2.2.1 High voltage turn-on 2.2.2 High temperature turn-on

2.2.3 Light turn-on 2.2.4 dv/dt turn-on

2.2.5 Gate turn-on 2.3 Devices used for firing circuit

2.3.1 Unijunction transistor (UJT) 2.3.2 Programmable Unijunction transistor (PUT)

2.3.3 Complementary Unijunction transistor (CUJT) 2.3.4 Silicon Unilateral Switch (SUS)

2.3.5 Silicon Bilateral Switch (SBS) 2.4 Gate characteristics of Thyristor

2.5 Firing Circuits

2.5.1 Diode-Resistance Firing Circuit

2.5.2 Diode-Resistance-Capacitance Firing Circuit 2.5.3 UJT Firing Circuit

2.5.4 PUT Firing Circuit 2.5.5 Synchronized UJT Firing Circuit

2.5.6 Pulse Transformer Firing Circuit 2.5.7 DIAC Firing Circuit

2.5.8 Silicon Bilateral Switch Firing Circuit 2.5.9 Light Activated Firing Circuit

10 12

3. 3.0 High frequency heating:

3.1 Induction Heating: Basic Principle 3.2 Factors Governing the process

3.3 Applications, merits &demerits over other systems 3.4 Di-electric heating: Basic Principle

3.5 Factors governing the process, applications, merits & demerits over other systems.

07 08

SECTION – II

4.

4.0 Commutation and protection:

4.1 Thyristor Turn-off Method

4.1.1 Line Commutation 4.1.2 Load Commutation

4.1.3 Forced Commutation 4.1.4 Gate Turn-off

4.2 Commutating Circuit

08

10

Page 76: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

4.2.1 Voltage Commutation 4.2.2 Current Commutation

4.2.3 Pulse Commutation 4.2.4 Jones Commutation

4.3 Protection Of Power Semiconductor Device 4.3.1 Overvoltage Protection

4.3.2 Over current Protection 4.3.3 Gate Protection

4.3.4 Over temperature Protection

5. 5.0 AC/DC Converter (controlled rectifiers)

5.1 Introduction

5.2 Half Wave Controlled Rectifier

5.2.1 Half Wave Controlled Rectifier With Resistive load

5.2.2 Half Wave Controlled Rectifier With Resistive Inductive load

5.2.3 Half Wave Controlled Rectifier With Inductive Load and Flywheel Diode

5.3 Full Wave Controlled Rectifier

5.3.1 Mid-Point Configuration with Resistive load

5.3.2 Full Wave Controlled Rectifier with Transformer Leakage

Reactance and Load Reactance 5.3.3 Full Wave Controlled Bridge Rectifier

5.4 Dual Converter

5.5 Three Phase Controlled Rectifier

5.5.1 Three Phase Half Wave Controlled Rectifier

5.5.2 Six Phase Half Wave Controlled Rectifier 5.5.3 Three Phase Fully Controlled Bridge Rectifier

16 20

6. 6.0 Regulated Power supply

6.1 Shunt regulators, Zener regulators

6.2 Transistor voltage regulator 6.3 Protection circuits, Crow bar protection.

6.4 Voltage regulators IC’s 723, LM309, 78XX series. 6.5 SMPS

6.5.1 Concept of Switched Mode Power Supplies 6.5.2 Various schemes of SMPS

6.5.3 Design aspects of SMPS

08 10

6.6 UPS

Page 77: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Total

64

80

6. LIST OF EXPERIMENTS

1. Characteristics of power BJT

2. Characteristics of power MOSFET 3. Characteristics of IGBT

4. Phase control of triac. 5. Diac-triac light dimmer circuit.

6. PUT relaxation oscillator. 7. SCR UJT light dimmer.

8. Demonstration of High frequency heating 9. Demonstration of induction heating

10. of Class A commutation circuit. 11. Study of Class B commutation circuit.

12. Study of Class C commutation circuit. 13. Study of Class D commutation circuit.

14. Single phase converter. 15. Three phase converter

16. Dual converter 17. Half wave controlled rectifier

18. Full wave controlled rectifier 19. Three phase controlled rectifier

20. Study of Series regulator. 21. Study of 723 regulator.

22. 78xx Series Regulator. 23. Demonstration of SMPS.

24. Demonstration of UPS.

7. IMPLEMENTATION STRATEGY (PLANNING):

1. Teaching Plan 2. Minimum 12 practical/assignments in the terms

8. REFERENCE BOOKS:

Sr.No Author Title Publishers & Address

1. P.C. Sen Power Electronics TMH,New Delhi

2. Alok Jain Power Electronics and Its

Applications

Penram ,India

3. M D Singh,

K B Khanchandani

Power Electronics McGraw Hill, New Delhi

4. Ramamurthy

Thyrister & its applications East West Press, New Delhi

Page 78: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

9. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5

12 - - Any 2 out of 3

06

2. Any 2 out of 4

12 - - Any 2 out of 3

08

3. Any 2 out of

3

16 - - Any 1 out of

2

06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Page 79: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS :

Course: Diploma in Industrial Electronics Semester: IV Subject: Principles Of Analog Techniques Code:120407 Group: C* Compulsory

2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory Hrs. Per

Week

Practical Hrs. Per

Week

Paper TH

Sessional marks

T/W Pract

Total

Hrs.

N/p

Mks.

03 02 05 03 01 80 80 20 25@

50** 175

3. RATIONALE :

Analog circuits play a vital role in the field of electronics. This course lays down the concepts of feedback amplifiers (Positive and Negative), timers, sweep generator etc. which are

used in many electronic applications.

4. OBJECTIVES :

After studying the subject the student will be able to

1. Draw and analyze the circuits of Operational amplifier, Oscillators, Feedback amplifier, Timers.

1. Identify the need for voltage and current time base generators, blocking oscillators, voltage multipliers.

1. Measure Opamp parameters.

5. DETAILED CONTENTS :

SECTION-I

Chapter

Content Hours Marks

1. 1.0 Feedback Amplifier :

1.1 Feedback concept and classification

1.2 Effect of negative feedback on Bandwidth , Voltage gain, Noise, Input/Output impedance,

Distortion Stability. 1.3 Feedback circuits using transistors.

04 05

2. 2.0 Oscillators :

2.1 Condition for maintaining oscillations

2.2 Derivation of frequency of oscillations for the following oscillators using transistors:

06 15

Page 80: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

RC phase shift oscillator, Wein bridge oscillator, Tuned collector oscillator, Hartley / Colpitts oscillator, Crystal

oscillator .

3. 3.0 Operational Amplifier :

3.1 Block diagram of Opamp, Differential amplifier, Level

shifting stage, Darlington amplifier and overload protection circuit.

3.2 Operational amplifier parameters. 3.3 Characteristics of Opamp.

3.4 Opamp applications. Inverting / Non-inverting amplifier, Differntial amplifier, Adder / Subtractor, Voltage

follower, Integrator, Differentiator Voltage limiters, Dead zone circuits, Log / Antilog amplifier, Precision rectifiers

(half wave, full wave), comparators, Wein bridge

oscillator, Square wave generator.

16 20

4

SECTION II

4.0 Active filters :

4.1 Merits and demerits of active filter over passive filter 4.2classification:Low pass ,high pass ,band pass, band

reject, All pass filter

4.3Universal active filter and Switched capacitor butter worth filter IC

07

15

5. 5.0 Timer 555 :

5.1 Internal block diagram,pin diagram and function of each pin.

5.2 Monostable, Astable, Bistable multivibrators 5.3 Typical applications

07 12

6. 6.0 Voltage time base generators :

6.1 General features of a time base signal. 6.2 Voltage sweep generator circuits, Exponential sweep,

UJT sweep circuit, .Miller time base generator, Bootstrap time base circuit, Transistor constant current sweep.

05 08

7. 7.0 Voltage Multipliers :

Voltage doublers, tripler & quadrupler. Applications.

03 05

Total

48

80

Page 81: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6. LIST OF EXPERIMENTS:

1. Inverting / non-inverting amplifier using opamp. 2. Op-amp as adder and scalar.

3. Study of op-amp parameters. 4. Op amp as differentiator.

5. Op amp as integrator. 6. Hysterisis comparator using op- amp.

7. Square wave generator using op amp. 8. Transfer characteristics of inverting amplifier.

9. Astable multivibrator using 555 timer IC. 10. Transfer characteristics of a dead zone circuit.

11. Gate crystal oscillator. 12. Schmitt gate oscillator

13. RC phase shift oscillator. 14. Voltage shunt feedback.

15. Voltage doubler. 16. Study of comparator.

17. Precision rectifier. 18. Active filter.

19. To study UJT sweep circuit. 20. Wein bridge oscillator.

21. Log / Antilog amplifier. 22. Monostable multi vibrator using IC 555.

7. IMPLEMENTATION STRATEGY (PLANNING) :

1.Teaching Plan

2. Minimum 12 practicals / Assignments

8. REFERENCE BOOKS :

Sr.N

o.

Author Title Publishers & Address

1. Allen Mottershead Electronic Devices &

Circuits

PHI, New Delhi

2. Jacob Millman Herbert Taub

Pulse, digital and switching

waveforms

TMH, New Delhi

3. Ramakant Gaikwad Linear integrated

circuits and Opamp

PHI, New Delhi

Page 82: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

4. J.Machael Jakob Applications and Design with

Analog integrated circuits

PHI, New Delhi

9. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of

5

12 - - Any 2 out of

3

06

2. Any 2 out of 4

12 - - Any 2 out of 3

08

3. Any 2 out of 3

16 - - Any 1 out of 2

06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Page 83: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS :

Course: Diploma in Industrial Electronics Semester: IV Subject: Measurement Techniques and Measuring Instruments Code:120408 Group: C * Compulsory

2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory

Hrs. Per Week

Practical

Hrs. Per Week

Paper TH Session

al marks

T/

W

Oral

Total

Hr

s

N/p Mks

03 02 05 03 01 80 80 20 25

@

50** 175

3. RATIONALE :

To become a good Technician in electronics, the student must understand, select, measure, and use proper testing & measuring instruments and must be aware of all errors & remedies. They

should also be capable of measuring all parameters and use methods in connection with test and measuring procedure.

4. OBJECTIVES :

After studying the subject the student will be able to 1. Identify, label the PMMC instrument.

2. Draw circuits of electronic voltmeter, FET voltmeter. 3. Measure voltage & current and extend the range of measuring instruments.

4. Measure resistance, inductance, capacitance using DC/AC bridges and using ohmmeters.

5. Measure voltage, current, frequency & phase using CRO. 6. Draw signal generator AF/RF diagrams and use it for testing purpose.

7. Measure Q of a circuit and dissipation factor using LCR-Q meter. 8. Measure distortion in an amplifier.

9. Use D.S.O. for measuring applications.

5. DETAILED CONTENTS :

SECTION-I Chapter Content Hours Marks

1. 1.0 Measurement Terminology:

1.1 Definition of measurement & instruments,

1.2 Accuracy, error, precision, range, sensitivity 1.3 Types of errors in measurement and remedial

methods

03 05

Page 84: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1.4 Merits & de-merits

2. 2.0 Standards:

2.1 Requirements of standards

2.2 Primary, secondary, working standards 2.3 Concept of calibration & calibration check

uncertainty.

03 05

3. 3.0 Permanent magnet moving coil galvanometer:

3.1.Theory, working & construction of PMMCG

3.2 Measurement of voltage current and resistance using PMMCG 3.3 Extension of range, Ayrton shunt

3.4 PMMCG multi meter advantages and limitations

06 10

4. 4.0 Electronic volt/Ohmmeters :

4.1 Principle, working of FET voltmeter

4.2 Transistorized voltmeter 4.3 AC milli volt meter

4.4 Chopper type electronic DC volt meter. 4.5 Ohmic sensitivity of volt meter

4.6 Loading effect, remedies, concept of high input impedance t measuring instrument

4.7Principle and operation of DVM 4.8DVM specifications

4.9Measurement of AC/DC voltage, current and resistance

4.10Advantages of DVM, types of DVM.

08 13

5. 5.0 Time and frequency Measurement:

5.1 Frequency and time standards

5.2 Measurement of frequency 5.3 Block schematic of frequency counter

5.3 Measurement of frequency and time

04 07

SECTION-II

6. 6.0 Resistance and impedance bridges :

6.1 Introduction to DC resistance bridges 6.2 Errors in balancing bridge

6.3 Kelvin double bridge 6.4Concept of guard applications

6.5Potentiometric measurements 6.6AC bridges Types of sources and detectors

6.7Maxwell’s bridge 6.8Hay’s bridge

6.9Capacitance comparison bridge and RLC bridge,

06 10

Page 85: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

applications

7. 7.0 Signal generators :

7.1 Block schematic of A.F. and R.F. generators,

explanation of each block inside 7.2 Specification and application of signal generators

7.3 Function generator 7.4 Block diagram

04 07

8. 8.0 Q Meter :

8.1 Theory and explanation of the circuit 8.2 Measurement of Q,L,C and dissipation factor.

03 05

9. 9.0 Distortion factor meter :

9.1 Harmonic distortion 9.2Theory of tuned harmonic analyzer

9.3Heterodyne harmonic analyzer 9.4Measurement of harmonic distortion

04

06

10. 10.0 Cathode Ray oscilloscope:

10.1 Study of block diagram and function of each block of CRO

10.2 Deflection sensitivity and Deflection factor of CRT 10.3 Special features of dual trace, double beam, delayed

sweep and storage oscilloscopes 10.4 Measurement of voltage, frequency, phase

10.5Study of Lissajous, Z-modulation, waveform analysis and comparison.

10.6 Special features and application of DSO

Total

07

48

12

80

6. LIST OF EXPERIMENTS:

1. Extension of range of ammeter.

2. Extension of range of voltmeter. 3. Series ohmmeter.

4. Shunt ohmmeter. 5. FET Voltmeter.

6. Loading effect measurement. 7. Rectifier type instrument.

8. Measurement of input impedance. 9. Study of Lissajous pattern.

10. Measurement of phase of two signals. 11. Frequency comparison and to find the unknown frequency.

12. Measurement of voltage and frequency . 13. Component testing.

Page 86: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

7. IMPLEMENTATION STRATEGY (PLANNING) :

1. Teaching Plan 2. Minimum 12 practicals/ assignments

8. REFERENCE BOOKS :

Sr.N

o.

Author Title Publishers & Address

1. W.D.Cooper Electronic

Instrumentation & Measurement

Techniques Measurement

PHI, New Delhi

2. Golding E.W.&

Widdis

Electrical Measurement &

Measuring Instruments

TMH, New Delhi

3. Chiang H.H. Electrical &

Electronics Instrumentation

Dhanpatrai & Sons New Delhi

4. Terman & Petit

Electronic Measurement

TMH, New Delhi

9. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5

12 - - Any 2 out of 3

06

2. Any 2 out of

4

12 - - Any 2 out of

3

08

3. Any 2 out of

3

16 - - Any 1 out of

2

06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Page 87: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

Course: Diploma in Industrial Electronics Semester: IV Subject: Electronic Devices & Circuits -II Code:120409 Group: C * Compulsory

2. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks

Th Hours

per week

Tutorials

Hrs. Per Wk.

Paper TH Sessional T/W Practical

Total

Hrs

NP

04 02 06 03 01 80 20 25@

50** 175

3. RATIONALE:

This course enables the students to understand symbol, construction, working & applications of devices like UJT, Thyristors, FET and Photoelectric devices. It also covers

important applications of BJT like multi vibrators, Power amplifiers, and Tuned amplifiers.

4. OBJECTIVES:

After studying the subject the student will be able to

1. Understand the symbol, construction & characteristics of JFET, MOSFET, UJT, SCR, DIAC, TRIAC Photoelectric devices etc.

2. Understand and explain the applications of UJT, FET, SCR, DIAC, TRIAC Photoelectric devices etc.

3. Understand the need, working & application of power amplifiers & voltage tuned amplifier. 4. Understand & explain working of different BJT based multivibrators.

5. Design power amplifier, Schmitt trigger, Monostable multivibrator & C-S amplifier.

5. DETAILED CONTENTS:

Chapter Content

SECTION – I

Hours Marks

1. 1.0 Power Amplifier :

1.1 Single ended and double ended amplifier 1.2 Class A transformer coupled amplifier

1.2.1 Conversion efficiency 1.2.2 Harmonic distortion

1.2.3 O/P power 1.3 Push pull amplifier, class A,B, AB operation

1.4 Complementary symmetry push pull amplifier 1.5 Heat sink

1.6 Problems based on above topics 1.7 Design of class A,B power amplifiers

1.8 Calculation of heat sink requirements.

14 18

Page 88: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

2. 2.0 Voltage Tuned Amplifiers :

2.1 Need

2.2 Single tuned voltage amplifier 2.3 Double tuned voltage amplifiers

2.4 Frequency response, B.W., Av and selectivity. .

04 05

3. 3 .0 FET :

3.1 Construction and char. of JFET

3.2 Effect of temp. 3.3 JFET parameters

3.4 Configurations 3.5 Small signal FET model

3.6 FET biasing 3.7 Common source and common drain amplifiers

3.8 FET applications as V.V.R. in AGC, constant current source etc.

3.9 Design of single stage C-S amplifier. 3.10 MOSFET :

Construction and char. of D-MOSFET and E-MOSFET, data sheet

3.11 Problems based on above topics.

14 17

SECTION – II 4. 4.0 UJT :

4.1 Construction 4.2 Equivalent circuit.

4.3 V.I. characteristics 4.4 Applications of UJT

4.4.1 UJT relaxation oscillator 4.5 Frequency stability

4.6 UJT data sheet.

04 05

5. 5.0 Thyristors :

5.1Construction

5.2 Characteristics and Applications of SCR,DIAC,TRIAC 5.3 Analogy of SCR

5.4 Rating of above devices. .

06 09

6. 6.0 Multivibrators :

6.1 Astable M.V.

6.2 Monostable M.V 6.3 Bistable M.V

6.4 Stable states 6.5 Triggering methods

6.6 Schmitt trigger 6.7 Applications of Schmitt trigger, Monostable, Astable &

16 18

Page 89: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Bistable MVs. 6.8 Design of Schmitt trigger & monostable

multivibrator using BJT.

7. 7.0 Photoelectric Devices :

7.1. Photoelectric effects

7.2. Construction and char. of photodiode, phototransistor, phototube,

multiplier phototube, LED,LCD, 7.3 Optocoupler, photovoltaic cell and their applications

7.3 Burglar alarm.

Total

06

64

08

80

6. LIST OF EXPERIMENTS

1. Study of V.I. characteristics of UJT. 2. Study of UJT relaxation oscillator.

3. Study of SCR characteristics. 4. Study of Diac characteristics.

5. Study of Schmitt trigger. 6. Study of FET characteristics.

7. Study of FET amplifier. 8. Study of Bistable Multivibrator.

9. Study of Voltage Controlled Oscillator. 10. Study of Frequency response of single tuned voltage amplifier.

11. Study of Push pull amplifier. 12. Study of Phototube characteristics.

Two assignments on following design topics.

i. Power amplifier

ii. Multivibrator iii. JFET C-S amplifier

7. IMPLEMENTATION STRATEGY (PLANNING) :

1 Teaching Plan

2 Minimum 12 practicals/assignments

Page 90: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8. REFERENCE BOOKS :

Sr.N

o.

Author Title Publishers & Address

1. Millman and Halkias

Integrated Elex. McGraw Hill International Edition

2. Millman and Halkias

Electronic Devices and Circuits

McGraw Hill

3. Robert

Boylestad

Electronic Devices and

Circuits

PHI, New Delhi

4. Allen

Mottershed

Electronic Devices and

Circuits

PHI,

New Delhi

5. Millman &

Taub

Pulse, digital and

switching waveforms

TMH McGraw Hill

6. Rammurthy Thyristors and their

application

East West New Delhi

7 Bhargava Basic Elex. and linear ckts.

TTTI, Chandigadh TMH, New Delhi

8 M.M. Shah Design of electronic circuits & computer

aided design

Wiley Easten, Mumbai

9. Sunil Shah Design of Basic

Electronic Circuits

Jeevandeep Prakashan

9. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks

1. Any 3 out of

5

12 - - Any 2 out of

3

06

2. Any 2 out of 4

12 - - Any 2 out of 3

08

3. Any 2 out of 3

16 - - Any 1 out of 2

06

4. - - Any 3 out of 5 12 - -

5. - - Any 2 out of 4 12 - -

6. - - Any 2 out of 3 16 - -

Page 91: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS :

Course : Diploma in Industrial Electronics Semester : IV Subject: Mini Project Code: 120410 Group: M* Compulsory

2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory

Hrs/week

Practical

Hrs/week

Paper Th SSL T/W Practical/Oral

Total

Hrs

NP

Mks

- 2 2 - - - - - 50@

- 50

3. RATIONALE :

The project developed for any electronic application gives an in depth understanding of all the concepts learnt at the lower semesters. The students are also exposed to the various stages of

making a project. It will enhance the design abilities in a student and the capability to work in a team.

4. OBJECTIVES :

After developing a mini project the students will be able to :

1. Design an electronic circuit

2. Design PCB 3. Test the electronic circuit

4. To write the Project Report 5. Each student/group of students will submit detailed project report with following

contents 1. Schematic diagram

2. Working of the project and documented program 3. PCB – artwork

4. Assembly drawing 5. Front panel drawing

6. Specification sheet 7. List of components and cost

6. Basis of Marking :

Students will be marked on the basis of

1. Understanding and completeness of the Project 2. Approach to the solution of problem

3. Planning and implementation 4. Design and testing procedure

5. Project Report Student’s involvement in the Project

Page 92: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

Course: Diploma in Industrial Electronics Semester: IV Subject: ELECTRONIC DRAWING & DRAFTING Code: 120411 Group: C OPTIONAL

2. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks

Th Hours

per week

Tutorials

Hrs. Per Wk.

Paper TH Sessional T/W Oral

Total

Hrs

NP

02 03 05 - - - - 50@ 50** 100

3. RATIONALE:

Electronic Drafting is a very versatile communication mode which enables a technician , and engineer and the designer to understand the details of the product .This will enable one who

is involved in production of electronic equipment to carry out his task successfully . The topics include drawing of components, projections, chassis ,cabinet ,racks ,fasteners

and various IC packages. Study of Printed Circuit Board with its artwork and layout has been added to enable the students to design single and multi layered PCB.

4. OBJECTIVES:

After studying this subject students will be able to :

1. Draw the symbols of various components 2. Draw the layout of single layered and multi layered PCB

3. Draw the front panel of different electronic equipments 4.Use the software to draw block diagram ,front panel and PCB layout of electronic circuits

5.DETAILED CONTENTS :

CONTENTS Hours

1. Graphic symbols covering various computer flow chart symbols ,digital

04 logic gates and logic symbol

2. Electronic components and devices symbols 03 3. Block diagrams covering electronic functioning of instruments

04 4. Front panel design-covering various instruments .

03 5. Schematic diagrams and circuit diagrams

04 6. Electronic component and IC packages of through hole ,surface mount, contact less package

7. Wiring diagram – Layout connection diagram 02

Page 93: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

lineless, baseline, point to point and highway diagrams 8. P.C.B. (Printed Circuit Board)

12

8.1 Schematic diagrams

8.2Component layout

8.3 Art work

8.4Drill and counter diagrams covering single side and double side P.C.B. (P.T.H.)

design.

Total Periods 32

6. LIST OF EXPERIMENTS :

i. Five drawing sheets on the above mentioned topics

ii. Five exercise using electronic drawing software iii. Minimum two assignments based on above topics

7. IMPLEMENTATION STRATEGY (PLANNING):

1. Teaching Plan

2. Drawing sheet ,use of electronic software tool for different topics 3. Visit to PCB making industry

8. REFERENCE BOOKS :

Sr.No Author Title Publishers & Address

1. D.E Harrington Schematic Diagrams -

2. Walter C.

Bosshart

PCB Design and tech. TMH

Page 94: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS :

Course: Diploma in Industrial Electronics Semester: IV Subject: JAVA PROGRAMMING Code: 120705 Group: A OPTIONAL

2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory

Hrs. Per Week

Practical Hrs. Per

Week

Paper TH Sessional

marks

T/W Pract

Total

Hrs.

N/p

Mks.

03 02 05 - - - - - 50

@

50** 100

3. RATIONALE:

Java language enhances and refines the object oriented paradigm. Essential to adapt to

refinements and improvements in the art of programming. Java supports development of dynamic network based applications, which are secured, reliable, portable, extensible and

reusable. This subject knowledge is essential for development of customized and web based applications. Java being platform independent language and a freeware software, the major

business applications world wide being based on Java technology, learning Java becomes essential. Further this subject, which includes learning core java forms a foundation for learning

Advanced java.

4. OBJECTIVES:

After studying the subject the student will be able to

1. Design and implement classes and methods 2. Understand and implement basic programming constructs

3. Apply object oriented features to real time entities 4. Differentiate between primitive data types and class data types and implement

Conversion between them. 5. Understand and implement the concept of reusability and extensibility

6. Create packages and interfaces and used it in programs 7. Design and implement multithreaded programs

8. Manage errors and exceptions 9. Design and implement applet and graphics programming

10. Make use of Data streams in programs 11. Write programs by combining all features of Java..

Page 95: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

5. DETAILED CONTENTS:

Chapter Name of the Topic Hours

01

Introduction to Java

1.1Fundamentals of Object Oriented Programming Object and Classes, Data abstraction and encapsulation, Inheritance, Polymorphism, Dynamic

Binding

1.2 Java Features Compiled and Interpreted, Platform independent and portable, Object oriented Distributed, Multithreaded and interactive, High

performance

1.3 Constant, Variables and Data Types Constant, Data Types, Scope of variable, Symbolic Constant, Type casting,

Standard default values

1.4 Operator and Expression Arithmetic Operators, Relational Operators, Logical Operators,

Assignment Operator Increment and Decrement Operator, Conditional Operator, Bit wise Operator, Special Operator

1.5 Decision making and Branching

Decision making with if statement, Simple if statement, The if else statement, The else if ladder, The switch statement, The? :Operator

1.6 Decision making and Looping

The While statement, The do statement, The for statement, Jumps in Loops, Labeled Loops

10

02 2.1 Classes, Object and Methods

Defining a class, Creating object, Accessing class members, Constructor, Methods Overloading, Static Member

2.2 Inheritance Extending a Class (Defining a subclass Constructor,

Multilevel inheritance, Hierarchical inheritance, Overriding Methods, Final variable and Methods, Final Classes, Abstract method and

Classes

2.3 Visibility Control Public access, friend access, Protected access, Private access,

Private Protected access

2.4 Array, Strings and Vectors Arrays, One Dimensional array, Creating an array, Two Dimensional array, Strings, Vectors, Wrapper Classes

08

03

Interfaces and Packages

3.1 Interface: Multiple Inheritance Defining interfaces, Extending interfaces, Implementing interfaces,

Accessing Interface variable

06

Page 96: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3.2 Packages: Putting Classes Together System Package, Using system Package, Naming Convention,

Creating Package, Accessing a package, Using a package, adding a class to a package

04 Multithreaded Programming and Exception handling

4.1 Multi Threading: Creating Thread, Extending a thread class,

Stopping and Blocking a thread, Life cycle of thread, Using thread method, Thread exceptions, Thread priority, Synchronization, Implementing a

Runnable’‘ Interface

4.2 Managing Errors and Exceptions Types of errors, Exception, Multiple catch statement, using finally

statement, Using Exception for Debugging

08

Page 97: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6. LIST OF EXPERIMENTS:

Sr. No. List of Experiments 1.

Write simple programs based on basic syntactical constructs of Java like:

a) Operators and expressions. b) Looping statements.

c) Decision making statements. d) Type casting.

2. Write a simple Java program to demonstrate use of command line arguments in Java.. 3. Write a Java Program to define a class, describe its constructor, overload the constructors and

instantiate its object

4. Write a Java Program to define a class, define instance methods for setting and retrieving values of instance variables and instantiate its object

5. Write a Java Program to define a class, define instance methods and overload them and use them for dynamic method invocation.

6. Write a Java Program to demonstrate use of sub class 7. Write a Java Program to demonstrate use of nested class.

8. Write a Java Program to practice - use of single Dimensional array.

- use of multidimensional array. 9. Write a Java Program to implement array of objects

10. Write a Java program to practice - using String class and its methods.

- using String Buffer class and its methods. 11. Write a Java Program to implement Vector class and its methods.

12. Write a Java Program to implement Wrapper classes and their methods. 13. Write a Java Program to implement single inheritance by applying various access controls to

its data members and methods 14. Write a Java Program to implement multilevel inheritance by applying various access controls

to its data members and methods. 15. Write a Java Program to implement inheritance and demonstrate use of method overriding.

16. Write a program to demonstrate - use of implementing interfaces.

- use of extending interfaces. 17. Write a Java program to implement the concept of importing classes from user defined

package and creating packages. 18. Write a program to implement the concept of threading.

19. Write a program to implement the concept of Exception Handling - using predefined exception.

- by creating user defined exceptions. 20. Write a program to implement the concept of Synchronization for

- object synchronization. - method synchronization

21. Write a program using Applet

- to display a message in the Applet. - for configuring Applets by passing parameters

22. Write programs for using Graphics class - to display basic shapes and fill them.

Page 98: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

7.

IMPLE

MENTA

TION

STRATE

GY

(PLANNI

NG):

1.

Teaching Plan

2. Minimum

12 practicals / Assignments

8.REFERNCE BOOKS:

http://www.sun.java.com http://www.osborne.com http://www.sun.java.com (For downloading JDK for Practical)

- draw different items using basic shapes - set background and foreground colors

22. Write program to demonstrate use of I/O streams. 24. Write program to demonstrate use of File streams.

Sr.N

o.

Author Title Publishers &

Address

1. E. Balagurusamy Programming with Java

BPB

2. C Thomas WU An Introduction to Object Oriented

Programming

Tata McGraw Hill

3. Patrick Naughton-Herbert Schildt

The Complete Reference Java 2

(Third Edition)

Tata McGraw Hill

4. John R.Hubbard Programming with

Java

PHI, New Delhi

5. Cohoon & Davidson Java Program design Tata McGraw Hill

6. Jawroski Java2 Unleashed Tata McGraw Hill

7. Java2 Programming Keyur Shah Tata McGraw Hill

Page 99: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vile Parle Kelavani Mandal’s

SHRI BHAGUBHAI MAFATLAL POLYTECHNIC

TEACHING AND EXAMINATION SCHEME

DISCIPLINE : INDUSTRIAL ELECTRONICS

SEMESTER : V w.e.f. - Batch admitted in June,

2012 (progressively)

Duration of Training : 24 weeks

Sr.

No. Subject Name & Code

Prerequisite Sub Code

Scheme of Examination Gr Cr

Weekly

Report Quiz Test

Training

Report OR Total

5.1

INPLANT TRAINING-I

( 120455)

-- 50@ 50@ 50** 50** 200 A* 15

TOTAL CREDITS = 15 TOTAL MARKS = 200

* Compulsory, # Award Winning, ** Assessed by Internal Examiner and External Examiner jointly,@ Assessed by Internal Examiner

only L-Lecture Period , P-Practical period , D- Drawing Practice Period , T-Tutorial, Cr-Credit , SSL-Sessional, TW- Term work, PR-

Practical , OR – Oral , Gr - Group , B-Basic, C-Core , A-Application , M-Management

Head of Department Principal

Page 100: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vile Parle Kelavani Mandal`s SHRI BHAGUBHAI MAFATLAL POLYTECHNIC

TEACHING AND EXAMINATION SCHEME

DISCIPLINE: INDUSTRIAL ELECTRONICS w.e.f. batch admitted June,2012 (Progressively)

SEMESTER: Sixth Sr No

Subject Name(code) Preq Sub

Code

Scheme of Instructions and Periods per week

Theory Paper Duration and

Marks

Scheme of Examination Gr Scheme L/P/Cr

L P D T Cr Hrs Mks SSL Paper TW PR OR Total

1 #Elements of

Comm.Engg(120412)

120409 4 2 - - 6 3 80 20 80 50@ 50** - 200 A* 426

2 #Prin.of Instrumentn. (120413)

120407 3 2 - - 5 3 80 20 80 50@ 50** - 200 C* 325

3 Microcontroller & Its

Appln(120414)

120702 4 2 - - 6 3 80 20 80 25@ 50** - 175 C* 426

4 #Advanced Industrial

Electronics(120415)

120406 3 2 - - 5 3 80 20 80 50@ - 50** 200 A* 325

5 Elective(Any one):

1)Princ. of Control

System(120416)

- 3 2 - - 5 3 80 20 80 25@ - 50** 175 C* 325

2) Signals & Systems

(120706)

- 3 2 - - 5 3 80 20 80 25@ 50** 175 C* 325

6 Servicing Techniques

(120417)

120408 1 3 - - 4 - - - - 50@ 50** - 100 M 134

7 Stress Mgmt(120025)

- - 2 - - 2 - - - - - - - M 022

TOTAL 18 15 - - 33 No.of

Papers=05

100 400 250 200 100 1050

TOTAL PERIODS = 33 TOTAL MARKS = 1050

* Compulsory, # Award Winning, ** Assessed by Internal and External Examiners Jointly, @ Assessed by Internal Examiner Only L- Lecture Period, P- Practical Period, D-Drawing Practice Period, T- Tutorial, Cr- Credit, SSL- Sessional, TW- Term Work,PR- Practical, OR- Oral r- Group, B - Basic, C -

Core, A - Application, M - Management

Head of Department Principal

Page 101: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vile Parle Kelavani Mandal̀ s SHRI BHAGUBHAI MAFATLAL POLYTECHNIC

TEACHING AND EXAMINATION SCHEME

DISCIPLINE: INDUSTRIAL ELECTRONICS w.e.f. batch admitted June,2012 (Progressively)

SEMESTER: Seventh Sr No

Subject Name(code) Preq Sub

Code

Scheme of Instructions and Periods per week

Theory Paper Duration and

Marks

Scheme of Examination Gr Scheme L/P/Cr

L P D T Cr Hrs Mks SSL Paper TW PR OR Total

1 #Robotics(120418) - 4 2 - - 6 3 80 20 80 50@ - 50** 200 A* 426

2 # Power Electronics

(120419)

120415 4 2 - - 6 3 80 20 80 50@ 50** - 200 A* 426

3 Process Control

Instrumentation (120420)

120413 4 2 - - 6 3 80 20 80 25@ - 50** 175 A* 426

4 #Project(120421) $ - 6 - - 6 - - - - 50@ - 50** 100 A* 066

5 #Industrial

Management(120024)

- 3 - - - 3 3 80 20 80 - - - 100 M* 303

6 #Elective (Any One) -

1)Adv. Communication

Engg

(120422)

120412 4 2 - - 6 3 80 20 80 50@ - 50** 200 A* 426

2)Embedded System (120709)

120414 4 2 - - 6 3 80 20 80 50@ - 50** 200 A* 426

7 Adv. Processor & PC

Architecture(120710)

- 4 2 - - 6 3 80 20 80 50@ 50** - 200 A 426

TOTAL 23 16 - - 39 No.of

Papers=06

120 480 275 100 200 1175

TOTAL PERIODS = 39 TOTAL MARKS = 1175 * Compulsory, # Award Winning, ** Assessed by Internal and External Examiners Jointly, @ Assessed by Internal Examiner Only L- Lecture Period, P- Practical Period, D-Drawing Practice Period, T- Tutorial, Cr- Credit, SSL- Sessional, TW- Term Work,PR- Practical, OR- Oral , Group, B - Basic, C - Core, A - Application, M - Management $=All compulsory Subjects upto 6th Semester With Term Granted.

Head of Department Principal

Page 102: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vile Parle Kelavani Mandal’s

SHRI BHAGUBHAI MAFATLAL POLYTECHNIC

TEACHING AND EXAMINATION SCHEME

DISCIPLINE : INDUSTRIAL ELECTRONICS

SEMESTER : VIII w.e.f.- Batch admitted in

June, 2012 (progressively)

Duration of Training : 24 weeks

Sr.

No. Subject Name & Code

Prerequisite Sub Code

Scheme of Examination Gr Cr

Weekly

Report Quiz Test

Training

Report OR Total

5.1

#INPLANT TRAINING-II

( 120488 )

120455 50@ 50@ 50** 50** 200 A* 15

TOTAL CREDITS = 15 TOTAL MARKS = 200 ( Converted to 100 for Award of Diploma)

* Compulsory, # Award Winning, ** Assessed by Internal Examiner and External Examiner jointly,@ Assessed by Internal Examiner

only L-Lecture Period , P-Practical period , D- Drawing Practice Period , T-Tutorial, Cr-Credit , SSL-Sessional, TW- Term work, PR-

Practical , OR – Oral , Gr- Group , B-Basic, C-Core , A-Application , M-Management

Head of Department Principal

Page 103: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vileparle Kelvani Mandal’s

SHRI BHAGUBHAI MAFATLAL POLYTECHNIC

Vile Parle (W) Mumbai-400056

Diploma course in Industrial Electronics With Effect From 2012

Credit Summary

Sr.No Semester Basic C

Core Application Management Compulsory Optional Total

credits Remark

C O C O C O E O 1 1 20 11 - - - - - 31 - - 31

2 2 20 10 - - - - - 30 - - 30

3 3 - 21 09 - - - - 21 - 09 30

4 4 - 16 05 06 05 02 - 24 - 10 34

5 5 - - - 15 - - - 15 - - 15

6 6 - 16 05

E 11 - - 06 27 05 06 38

7 7 - - - 30 06+06 E

03 - 33 06 06 45

8 8 - - - 15 - - - 15 - - 15

Total 40 74 19 77 17 05 06 196 11 31 238

Page 104: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Shri Vileparle Kelvani Mandal’s

SHRI BHAGUBHAI MAFATLAL POLYTECHNIC

Vile Parle (W) Mumbai-400056

Diploma course in Industrial Electronics With Effect From 2012

Credit Summary

Group Max. Cr. Compulsory Cr. Optional Cr. Remark

B = Basic 40 40 -

C = Core 93 74 19

A= Application 88 77 17

M = Management 11 05 06

Total 238 196 42

Page 105: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

2. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks TheoryHrs. Per week

Practical Hrs Per week

Paper Sessional T/W pract

Total

Hrs. Np Th

04 02 06 03 01 80 20 50@ 50** 200 3. RATIONALE: This course enables the students to understand fundamentals of telecommunication. The knowledge of communication is essential in the world of information Technology. 4. OBJECTIVES: After studying the subject the student will be able to 1. Explain the analog /pulse modulation techniques. 2. Draw the circuits for radio and analyze the waveforms. 3. Identify the need for multiplexing communication signals. 4. Appreciate the importance of Noise in communication. 5. Draw the radiation pattern for antenna. 6. Understand T.V. 5. DETAILED CONTENTS: SECTION-I Chapter Content Marks Hours

1. 1.0 Introduction to communication system: 1.1 Block diagram of communication system 1.2 Need for modulation 1.3 Bandwidth requirements

01 01

2. 2.0 Amplitude Modulation: 2.1 Amplitude modulation theory 2.1.1 Frequency spectrum of AM Wave 2.1.2 Representation of AM Wave 2.1.3 Power relation in AM Wave 2.1.4 Problem based on AM Wave 2.2 Generation of AM Wave 2.2.1 Basic requirement 2.2.2

2.2.4 Collector modulation 2.2.5 AM transmitter block diagram

08 06

3. 3.0 Single sideband technique: 3.1 Suppression of carrier 3.1.1 Effect of non linear resistance on added signals

04 03

Course: Diploma in Industrial Electronics Semester: VI Subject: #Elements of Communication Engg. Code: 120412 Group: A* Compulsory

Page 106: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3.1.2 Balance modulator 3.2 Suppression of unwanted sideband 3.2.1 The filter system 3.2.2 Phase shift method

4. 4.0 Frequency modulation: 4.1 Theory of frequency and phase modulation 4.1.1 Mathematical representation of FM wave4.1.2 Frequency spectrum of FM Wave 4.1.3 Phase Modulation 4.2 Noise and frequency modulation 4.2.1 Effect of noise on carrier noise triangle 4.2.2 Pre emphasis and de emphasis 4.2.3 Comparison of Wide Band and Narrow Band FM 4.3 Generation of frequency modulation 4.3.1 Direct method 4.3.2 Stabilized reactance modulator-AFC 4.3.3 Indirect method

07 06

5. 5.0 Radio receiver: 5.1 Receiver type 5.1.1 Tuned radio frequency(TRF) receiver 5.1.2 Superhetrodyne receiver 5.2 AM receiver 5.2.1 RF section and characteristics 5.2.2 Frequency changing and tracking 5.2.3 Intermediate frequency and IF amplifier 5.2.4 Detection and automatic gain control(AGC) 5.3 FM receiver 5.3.1 Amplitude limiting 5.3.2 Basic FM demodulator 5.3.3 FM detectors, frequency and phase discriminators

06 05

6. 6.0 Pulse communication: 6.1 Introduction-types 6.2 Pulse amplitude modulation-PAM 6.3 Pulse width modulation-PWM 6.4 Pulse position modulation-PPM 6.5 Pulse code modulation-PCM

04 03

7. 7.0 Multiplexing Schemes: 7.1 Types-frequency division and time division

02 02

8. 8.0 Noise: 8.1 Types of noise 8.2 Noise calculassions 8.3 Noise figure, noise temperature 8.4 Problems based on above topics

04 03

9. 9.0 Phase locked loop: 9.1 Block diagram 9.2 Study of PLL IC 565 9.3 Applications

04 03

Page 107: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

SECTION-II

10. 10.0 Radiation and Propagation of Wave : 10.1 Electromagnetic Radiation 10.1.1 Fundamentals of EM Wave 10.1.2 Effect of environment 10.2 Propagation of Wave 10.2.1 Ground Wave 10.2.2 Sky Wave Propagation-Ionosphere 10.2.3 Space Wave 10.2.4 Tropospheric Wave Scatter Propagation

07 06

11. 11.0 Antenna: 11.1 Radiation Mechanism 11.2 Wire Radiator in space 11.2.1 Current and Voltage distribution 11.2.2 Resonant antenna 11.2.3 Non-Resonant antenna 11.3 Terms and definitions 11.3.1 Antenna gain 11.3.2 Antenna resistance 11.3.3 Bandwidth, Beam width and Polarization 11.4 Effect of Ground on antenna 11.5 Directional high frequency antenna 11.5.1 Dipole arrays 11.5.2 Folded dipole and applications 11.5.3 Non Resonant antenna-The Rhombic antenna 11.6 Microwave antenna 11.6.1 Antenna with parabolic reflector 11.6.2 Horn antenna

10 08

12. 12.0 Monochrome Television : 12.1 Picture transmission 12.2 TV transmitter 12.3 TV receiver 12.4 Synchronization 12.5 Aspect ratio 12.6 Scanning 12.7 Picture resolution 12.8 Composite video signal 12.9 VSB(Vestigial Sideband) 12.10 Interference suffered by TV signal 12.11 TV broadcast channel 12.12 Monochrome TV receiver

11 09

13. 13.0 Colour Television: 13.1 Additive colour mixing 13.2 Luminance signal 13.3 Compatibility 13.4 Colour difference signal 13.5 Chrominance signals 13.6 PAL-Encoder 13.7 PAL-D-Colour receiver 13.7.1 Chroma Decoder

09 07

14. 14.0 Digital Television: Transmission and Reception 14.1 Digital satellite TV 14.2 Direct to home digital satellite TV 14.3LCD&LEDTV TOTAL

03

80

02

64

Page 108: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6.PRACTICE: 1. Study of AM 2. AM detector. 3. Audio Amplifier. 4. AM receiver/transmitter. 5. Pulse Width Modulation. 6. Frequency modulation. /Demodulation 7. Noise Calculations 8. Study of sampling methods 9. Study of composite video signal. 10. Monochrome/Colour T.V. receiver. 11. Study of Antenna Radiation Pattern. 7. IMPLEMENTATION STRATEGY (PLANNING) : 1. Teaching Plan 2. Minimum 12 practical/assignments in the term 8. REFERENCE BOOKS:

Sr.No. Author Title Publishers & Address1. George Kennedy Electronic Communication Systems TMH, New Delhi

2. Taub and Schilling Principles of Communication System TMH, New Delhi

3. Wayne Tomasi Advanced Electronic Communication

systems Pearson Education

4. R.R. Gulati Monochrome & Colour T.V. Wiley Eastern Bombay

9. QUESTION PAPER PATTERN Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks 1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -

Page 109: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS : 2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks Theory

Hrs. per

week

Practical Hrs. per

week

Paper Th Sessional T/W Practical

Total

Hrs NP Mks

03 02 05 03 01 80 80 20 50@ 50** 200 3. RATIONALE : It is necessary to fully understand the system under investigation before suggesting suitable transducers and then utilize the electronic support. It is also necessary to know the basic principles of transducers and show how each of them can be used for the measurement of large number of variables. 4. OBJECTIVES : After studying the subject the student will be able to 1. Select proper transducer for particular application. 2. Use proper signal conditioning circuit. Design a complete system for the measurement of non electrical quantities. 5. DETAILED CONTENTS: SECTION-I

Chapter Content Marks Hours 1. 1.0 Instrumentation :

Fundamentals, Instrumentation terminology: error, Accuracy, Precision, Sensitivity, Reliability, Sources of error in instruments.

04 02

2. 2.0 Transducers and primary sensors : 2.1 Transducers in measurements. Transducer: actuating mechanism, types of transducers voltage and current generating transducer, piezoelectric, photoelectric, thermoelectric, magnetoelectric, variable parameter analog transducers, frequency generating transducers, transducer selection factors. 2.2 Applications of the above transducers for measurement of speed, displacement, acceleration, vibration, strain, pressure, level, temperature, flow, PH and conductivity. 2.3 Transducers for Biomedical application. Instrumentation for clinical laboratory.

04

22

10

03

12

07

SECTION-II

3. 3.0 Amplifiers and signal conditioning : 3.1 Input modification, balance bridges inputs 3.2 Instrumentation amplifiers,

16 10

Course: Diploma in Industrial Electronics Semester: VI Subject: #Principles of Instrumentation Code: 120413 Group: C* Compulsory

Page 110: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3.3 chopper modulators, solid state modulators and demodulator. 3.4 Analog and digital measurements, A/D and D/A conversion 3.5 Isolation and current loop transmitters.

4. 4.0 Indicating and recording devices : 4.1 Analog indicators, oscillograph and graphic recorders 4.2 Numerical and digital indicators 4.3 Data acquisition system4.4 printers

06 04

5. 5.0 Systems for control and measurement of displacement, speed, acceleration, pressure, level temperature etc. using above blocks.

06 04

6. 6.0 Interference signals : Capacitive interference, inductive interference and shielding, conductively coupled interference, ground loop interference.

08 04

7. 7.0 Signal to noise considerations : Fluctuation and noise in measurement system. Sources of noise. TOTAL

04

80

02

48 6.PRACTICE: 1. L.V.D.T. 2. Photosensor. 3. Strain guage. 4. Thermocouple characteristics. 5. Thermistor characteristics. 6. V to I and I to V converter. 7. Diode chopper modulator. 8. Instrumentation amplifier. 9. IC 7107/ IC 7106 . 10. Voltage to frequency converter. 11. Quad comparator IC LM 339. 12. Study of DAC 0808. 13.RTD characteristics. 14. Study of ADC. 15.Study of Digital panel meter. 16. Solid state temperature transducer. 7. IMPLEMENTATION STRATEGY (PLANNING) : 1. Teaching Plan 2. Minimum 12 practicals/assignments in the term

Page 111: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8. REFERENCE BOOKS :

Sr.No. Author Title Publishers & Address 1. A.K. Sawhney A course in electrical and electronic

measurement & instrumentation Dhanpatrai & Sons, New Delhi.

2. Curtis Johnson Process control instrumentation technology PHI, New Delhi. 3. H.S. Kalsi Electronic instrumentation TMH, New Delhi. 4. Joseph Carr

John M.Brown

Introduction to bio-medical equipment technology

Pearson Education, (Singapore) Pte Ltd, New Delhi.

5. StanleyWolf Richard Smith

Students Reference manual PHI, New Delhi.

9. QUESTION PAPER PATTERN Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks 1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -

Page 112: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS :

2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks Theory Hrs. Per week

Practical Hrs Per week

Paper SSL T/W PR

Total

Hrs. Np Th

04 02 06 03 01 80 20 25@ 50** 175

3. RATIONALE : Microcontrollers have changed the scenario for miniaturized control applications. Microcontroller based applications are existing in almost every industry, from home appliances, toys to real time applications and distributed control system. Knowledge of microcontrollers is a must for trained technicians. 4. OBJECTIVES : After studying the subject the student will be able to: 1 Draw & explain block diagram of 8 bit/16 microcontrollers. 2 Write application program using 8 bit microcontroller. 3 Design microcontroller based applications. 4 Interface different hardware(I/P and O/P) device to microcontroller. 5. DETAILED CONTENTS: SECTION-I Chapter Content Marks Hours

1. 1.0 Introduction to microcontroller: 03 02

2. 2.0 Architecture of microcontroller 8051: 2.1 Port, program memory, data memory, serial data, interrupts. 2.2 Memory organization. 2.3 Timing diagram to access external data memory, program memory. 2.4 Reset logic: Power ON reset. 2.5 Oscillator circuit.

13

12

3.

3.0 Instruction set and programming: 3.1 Addressing mode. 3.2 Instruction sets. 3.3 Basic programs.

16

12

4.

4.0 Microcontroller Design: 4.1 Memory interfacing. 4.2 System design using microcontrollers.

08

06

Course: Diploma in Industrial Electronics Semester: VI Subject: Microcontroller and its Applications Code: 120414 Group: C* Compulsory

Page 113: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

SECTION-II

5. 5.0 Advanced programming: 5.1 Time Delays. 5.2 Event Counting 5.3 Serial transmission, microprocessor communication.

08 06

6.

6.0 Interfacing and Applications: 6.1 Keyboard Interfacing 6.1.1 Lead-per-Key 6.1.2 Matrix keyboard 6.1.3 Coded Keyboard 6.2 Display Interfacing. 6.2.1 LED ( 7- Segment Display ) 6.2.2 LCD ( Intelligent LCD display ) 6.3 Pulse width measurement. 6.4 A/D AND D/A interfacing. 6.5 Multiple interrupts. 6.6 Expanding the I/O pots.

17

14

7.

7.0 Other Microcontrollers: 7.1 Comparison of different microcontrollers 7.2 Introduction to 16,32 bit microcontrollers

08

06

8.

8.0 Software Tools: 8.1 Assemblers. 8.2 Simulator. 8.3 Cross compiler.

07

06

Total 80 64

6. LIST OF EXPERIMENTS: 1. Basic programs. 2. Program on Code Conversion.(hex to ASCII, hex to BCD). 3. Programs on counters. 4. Programs on timers/delays. 5. Programs on interrupts. 6. Program on serial port (mode 1 and mode 2) 7. Interfacing of keyboard. 8. Interfacing of display. 9. Interfacing of A/D converter. 10. Interfacing of D/A converter. 11. Study of Applications: a. Temperature controller b. Stepper motor controller. c. Tachometer.

d. Frequency Counter.

Page 114: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

7. IMPLEMENTATION STRATEGY (PLANNING): 1. Teaching plan 2. Minimum 12 practicals/ assignments in the term.

8. REFERENCE BOOKS:

Web reference: www.intel.com www.atmel.com

9. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -

Sr.No. Author Title Publishers & Address 1. Kenneth .J. Ayala The 8051 microcontroller

architecture programming and application

Penram International Pub. house(India)

2. Ali Mazidi M. and J.G. Mazidi

The 8051 Microcontroller and Embedded Systems

Pearson Education

2. Intel Data sheet for 8051 microcontroller & 16 bit microcontroller.

-

-

3. Intel-Embedded applications data sheet.

- -

Page 115: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS : Course: Diploma in Industrial Electronics Semester: VI Subject: #Advanced Industrial Electronics Code: 120415 Group: A* Compulsory

2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory Hrs. per week

Practical Hrs. per week

Paper Sessional T/W ORAL

Total

Hrs.

Np

Mks

03 02 05 03 01 80 20 50@ 50** 200 3. RATIONALE: Advanced industrial electronics is essential to understand, analyze and operate the electronic control systems using Thyristors and similar other devices 4. OBJECTIVES: After studying the subject the student will be able to

1. Analyze inverter and chopper circuits using Thyristors. 2. Analyze various applications using Thyristors and similar devices.

5. DETAILED CONTENTS: SECTION-I

Chapter Content Hours Marks 1. DC-AC converter (Inverters) 1.1 Operating Principle 12 18 1.2 Force Commutated Thyristor Inverters 1.3 Three Phase Bridge inverters 1.3.1 180 degree mode VSI 1.3.2 120 Degree mode VSI 1.4 PWM Inverters 1.4.1 Single Pulse Modulation 1.4.2 Multiple Pulse Modulation 1.4.3 Sinusoidal Pulse Modulation 1.5 Current Source Inverters 1.6 Series Inverter 1.7 Parallel Inverter 1.8 Reduction of Harmonics in the inverter output voltage 2. Choppers 08 14 2.1 Principle of Operation 2.2 Control Strategies 2.2.1 Time Ratio Control 2.2.2Current-limit Control 2.3 Step-Up/Step-Down Choppers 2.4 Types of Chopper Circuits 3. Cycloconverter 04 08 3.1 Principle of Cycloconverter Operation 3.2 Step up Cycloconverter 3.3 Step down Cycloconverter

Page 116: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

SECTION-II

4. General Applications 08 14 4.1 Static Switches

4.1.1AC switches 4.1.2 DC Switches 4.2 Solid State Relays 4.2.1DC Solid State Relays 4.2.2AC Solid State Relats 4.3 Static Circuit Breakers 4.3.1 Static AC Circuit Breakers 4.3.2 Static DC Circuit Breakers 4.4 Battery Charger 4.5 Sawtooth generators 4.6 Flahser Circuits 5. Industrial Applications 12 20

5.1 HVDC Transmission 5.1.1Types of HVDC link 5.1.2Bipolar HVDC System 5.2 Temperature control 5.3 Liquid level controllers 5.4 Alarm actuator 5.5 High frequency welding 5.6 Ultrasonic Applications 5.7 Emergency Lighting System

6. Power Factor Improvement 04 06 6.1 Effect of Poor Power factor

TOTAL 48 80 6. LIST OF EXPERIMENTS

1. Demonstration of High frequency heating 2. Demonstration of induction heating 3. Study of Class A commutation circuit. 4. Study of Class B commutation circuit. 5. Study of Class C commutation circuit. 6. Study of Class D commutation circuit. 7. Study of 723 Regulator. 8. 78xx Series Regulator. 9. Demonstration of SMPS. 10. Demonstration of UPS.

7. IMPLEMENTATION STRATEGY (PLANNING): 1. Teaching Plan 2. Minimum 10 practical/assignments in the terms

Page 117: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8. REFERENCE BOOKS:

Sr.No Author Title Publishers & Address

1. P.C. Sen Power Electronics TMH,New Delhi

2. Dr. P. S. Bimbhra Power Electronics Khanna Publications

3. Alok Jain Power Electronics and Its Applications

Penram ,India

4. M D Singh, K. B. Khanchandani

Power Electronics Tata McGraw Hill, New Delhi

5. Ramamoorthy

Thyristor & its applications East West Press, New Delhi

9. QUESTION PAPER PATTERN Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks 1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -

Page 118: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS :

2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks TheoryHrs. Per week

Practical Hrs Per week

Paper Sessional T/W Oral

Total

Hrs. Np Th

03 02 05 03 01 80 20 25@ 50** 175 3. RATIONALE : This subject helps to develop understanding of concept like stability of a system; and how feedback is an important technique of improving characteristics of system. 4. OBJECTIVES : After studying the subject the student will be able to 1. Draw a block diagram of closed loop system. 2. Analyze time domain characteristics of systems. 3. Analyze frequency domain characteristics of systems. 4. Understand working of servo components. 5. DETAILED CONTENTS : SECTION-I Chapter Content

Marks Hours

1. 1.0 Control System : 1.1Open loop control system and closed loop control system. 1.2 Elementary form of control system. 1.3 Block diagram representation of system. 1.4 Transfer function of the system, effect of feedback on control system.

10 06

2. 2.1. Introductory ideas of Laplace transforms and its use in solving differential equation. 2.2 Description of time domain behaviors of control system. 2.3 Steady state and transient response. Time domain specifications. Characteristics equation of the system. 2.4 Roots of the equation and system response. 2.5 Steady state error analysis problems. Test Signals .Type of the system.

22 12

Course: Diploma in Industrial Electronics Semester: VI Subject: Principles of Control System (Elective) Code: 120416 Group: C* Compulsory

Page 119: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3. 3.0 Stability : 3.1 Stability of the system absolute stability, relative stability.

3.3 Nyquist criteria problems.

08 04

SECTION-II

4. 4.1 Description of frequency domain behavior of control system. 4.2 Frequency domain specification. Bode diagram.

08 06

5. 5.0 Study of servo components : 5.1Potentiometers, synchro elements- construction, principle of operation, applications. 5.2 Simple theory of servomechanism A.C. position servomechanism D.C. position servomechanism. A.C. servomotor, D.C. servomotor advantages and disadvantages. 5.3Amplidyne Ward Leonard system of speed control. 5.4Servo amplifier servo modulators and demodulators. 5.5Stepper motor applications. System examples Digital servo system, Voltage regulator system.

22 12

6. 6.1 Effect of gain on the system performance 6.2Effect of derivative control & integral control. 6.3Compensation networks lag lead, effect of Tachometer rate feedback control. Total

10

80

08

48 6.PRACTICE: 1. Synchro transmitter. 2. Synchro pair as an error detector. 3. Compensatory networks Lag . 4. Compensatory networks Lead . 5. Linear Potentiometer characteristics. 6. Characteristics of A.C. servomotor. 7. Transistor modulator. 8. Phase sensitive detector. 9. Stepper motor. 10 .D.C. positional servo system. 11. Study of A.C. positional servo system. 12. Study of D.C. positional servo system. 13. Characteristics of A.C. servomotor. 14. Potentiometer pair as an error detector. 7. IMPLEMENTATION STRATEGY (PLANNING) : 3. Teaching Plan 4. Minimum 12 practicals/assignments in the term

Page 120: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8. REFERENCE BOOKS :

Sr.No. Author Title Publishers & Address 1. S.C.Goyal and

U.A.Bakshi Principles of Control System Technical Publication,

Pune 2. Benjamin C.

Kuo Automatic Control System PHI

3. I. J. Nagrath/ M. Gopal

Control System Engineering Wiley Eastern Ltd.(New Delhi)

9. QUESTION PAPER PATTERN Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks 1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -

Page 121: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks TheoryHrs. Per week

Practical Hrs Per week

Paper Sessional T/W Oral

Total

Hrs. Np Th

03 02 05 03 01 80 20 25@ 50** 175

3. RATIONALE: The subject of Signals and Systems has assumed great importance in the recent time because of increasing practical use of signal analysis in Digital Signal Processing(DSP). This field finds practical applications in speech analysis, processing and compression. Particularly in medical field (Ultra sound imaging, CT scan). Signal processing also finds extensive applications in telephony, radar, sonar and space. 4. OBJECTIVES: After studying this subject the students will be able to: 1. Analyze different signals and systems. 2. Find Fourier analysis of continuous and discrete time signals. 5. DETAILED CONTENTS: Section I

Hrs. Marks 1. Introduction to signals

- Types of signals - Discrete and continuous signal - Transformation of signals - Properties of signals - Standard test signals unit step and unit impulse in both

domains.

04 08

2. Systems - Introduction and overview of a system (Continuous time and

discrete time) - Interconnection of systems - Properties of system like 1.Memory 2.Invertibility 3. Causality 4. Stability 5. Time invariance 6. Linearity

04 08

Course: Diploma in Industrial Electronics Semester: VI Subject: Signals and Systems (Elective) Code: 120706 Group: C* Compulsory

Page 122: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3. Linear time invariant system(LTI) - Importance of LTI system - Signals in terms of impulses - Convolution sum of LTI discrete systems - Convolution integral of LTI continuous systems - Properties of LTI system - Unit step response of LTI system - Representation of LTI system using differential and difference

equations - Block diagram representation of systems

16 24

Section II

4.

Continuous time signals and systems(CT)

- Fourier analysis - The response CT LTI system to complex exponentials - Fourier series representation of CT LTI periodic signals - Convergence of Fourier series - Fourier transform representation of non-periodic signals - Properties of Fourier transforms - Frequency response of systems by linear constant coefficient

differential equation. Typical example of first order and second order system.

12

20

5. Fourier representation of discrete time LTI system - The response of discrete time LTI system to complex

exponentials(discrete time Fourier transforms DTFT) - Representation of periodic signals using DTFT - Properties of DTFT - Duality of DTFT and Fourier series coefficient - Frequency response of LTI system characterized by difference

equation

Total

12

48

20

80 6.PRACTICE: 1.Study of different signals. 2.Assignments on different types of systems. 3.Problems on a. LTI system. b. Convolution. c. Fourier series. d. Fourier transform. e. DTFT 4. MATLAB exercise to be performed on all the topics. 7. IMPLEMENTATION STRATEGY (PLANNING) : 1 Teaching Plan 2 Minimum 12 practicals/assignments in the term

Page 123: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8. REFERENCE BOOKS:

Sr.No.

Author Title Publishers & Address

1. Oppehheim Wilsky and Young

Signals and Systems PHI

2. Gable and Roberts Signals and Systems Wiley Publications

3. Simon Haykin and Barry Van Veen

Signals and Systems John Wiley

4. Benoit Boulet Fundamentals of Signals and Systems Dreamtech

5. Smarajit Ghosh Signals and Systems Pearson Education

8. QUESTION PAPER PATTERN Que. No.

Section I Section II Periodical Test Bits Marks Bits Marks Bits Marks

1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -

Page 124: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

2. TEACHING AND EXAMINATION SCHEME: Teaching Scheme Credits Examination Scheme and Maximum Marks

TheoryHrs. Per week

Practical Hrs Per week

Paper Sessional T/W Practical

Total

Hrs. Np Th

01 03 04 - - - - 50@ 50** 100

3. RATIONALE: This subject will develop the basic skill of maintenance of equipments. It will also provide the necessary knowledge and competence in finding systematic repair of electronic test equipment. It also provides the information of maintenance management of service department/service enterprise in industry. 4. OBJECTIVES: Student will be able: 1. To develop tracing, testing maintenance and trouble shooting knowledge.

2. To do the analysis of circuit. 3. To develop different fault finding techniques like visual inspection, tracing, voltage and signal analysis. 4. To find the equivalent components with the help of data book 5. Do effective use of internet. 6. Do effective use of computer, operation manual and service manual.

5. CONTENTS: Chapter Name of the topic Hours

01. Reliability aspects of electronic equipments Traditional bath tub reliability curve Generalized reliability curve Mean time to fail Failure rate Mean time between failure Mean time to repair Mean time to restore time Thermal acceleration Practical reliability Quality standards Maintenance policy Preventive maintenance Corrective maintenance Qualitative maintenance

04

02. Maintenance Management Maintenance policy Equipment service option

02

Course: Diploma in Industrial Electronics Semester: VI Subject: Servicing Techniques Code: 120417 Group: M Optional

Page 125: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Types of contract General contract provision Maintenance organization Training maintenance personnel Planning of spare parts inventory Assigning spare parts requirement Essentials of good equipments management program Acquisition program Planning of utilities Incoming inspection Inventory control User training Technical training Management of service manual and reference library Maintenance arrangement Calibration check Preventive maintenance ALERT issue Quality assurance Installation procedure Environmental conditions Humidity Shock and vibrations Protection from electromagnetic interference Safety

Service and Maintenance laboratories Work bench Lighting Storage Maintenance system overview Log book Performa for recording specification Performa for preventive maintenance Performa for corrective maintenance Data analysis Information tags Personal safety

03. Fundamental Troubleshooting Procedure Reading of block diagram Reading of circuit diagram De-assemble Re-assemble Trouble shooting process Fault establishment Fault correction Fault finding aids Service, Maintenance and Instruction manual Test and Measuring tools Pre troubleshooting techniques Preliminary Observation Function area approach Split half method Divergent path Convergent path

02

Page 126: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Feedback path Systematic troubleshooting checks Check control setting Check associated equipments Visual check Calibration Isolate the troubling circuit Measurement Individual component

04. Troubleshooting Procedure 1. Visual inspection 2. Measure

Voltage levels Presence of signal waveform

3. Component failure Out of circuit test In circuit test

4. Signal tracing 5. Functional analysis

02

05. Troubleshooting Aids Tools Service manual Circuit diagram Circuit board location Voltage analysis Fault finding flow check Diagnostic software List of replaceable parts

02

06. Data Manuals Troubleshooting Technique 1. Voltage analysis 2. Signal injection 3. Signal tracing

02

07. Computer Maintenance Need of preventive maintenance Assembling of PC. Installation of O.S. Trouble shooting Hardware: Peripherals Software

Total

02

16 6.PRACTICE: 1. Testing of resistor, capacitor and inductance by using multimeter, LCR Q meter and CRO. 2. Testing of transistor by using multimeter, transistor tester and CRO. 3. Testing of IC using IC tester. 4. Testing of variable resistor, connectors, switches by using multimeter. 5. Testing of diode, zener diode, varactor diode, Photo diode, Tunnel diode, LDR, thermistor, 7 segment display, FET, MOSFET, SCR, Triac with the help of multimeter. 6. Layout of components in given power supply

Tracing of voltage regulation section in given power supply Voltage analysis in given power supply Fault finding in given power supply by voltage analysis method.

Page 127: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

7. Layout of components for given function generator Tracing of alternation section used in function generator Voltage analysis in given function generator Fault finding in function generator by voltage analysis method.

8. Layout of components for given CRO Tracing a vertical section of CRO. 9. Fault finding of memory, connector and power supply in PC. Assignment: List of different tools and materials with specifications. 7. IMPLEMENTATION STRATEGY (PLANNING): 1. Teaching Plan 2. Minimum 10 practicals / assignments.

8. REFERENCE BOOKS: S. No. Author Title Publication

1. R.G. Gupta Electronic instruments & systems TMH 2. R.S. Khandpur Trouble shooting of Electronic

equipment TMH

3. Scott Muller Upgrading and Repairing of PC Pearson Education

Page 128: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1.0 SUBJECT DETAILS: Course: C/ME/EE/IE/P/CH/DE Semester: VI Subject: Stress Management Code: 120025 Group: M Optional

2.0 TEACHING AND EXAMINATION SCHEME: Teaching Scheme

Exam Scheme & Maximum Marks

TH TU PR CR PAPER HRS.

TH No. of paper

Sessional PR Oral TW TOTAL

- - 02 02 - - - - - -- - -

3.0 RATIONALE: This subject is designed to provide overview of Yoga, Meditation, Art of Living, Stress Management and Spiritual Power in human being as support Engineer to achieve Auxiliary skill. 4.0 OBJECTIVES: Students will be able to 1. Gain knowledge about the basic technique and practice of yoga, including instruction in Breath control, meditation, and physical postures. 2. Develop physical competency and mental concentration. 3. Gain an intellectual and theoretical understanding of the principles embodied in the Yoga Sutras, 4. Increase efficiency, concentration, inner power and enhance the spiritual power for improving Learning Skill. 5.0 CONTENTS: Hrs. 1. HISTORICAL BACKGROUND AND YOGA 10 LEARNING i) Yoga in Vedas ii) Yoga and its Principles iii) Consciousness iv) Yoga approach and Scientific view v) Pranayama: Breath Control, Breath and Postures, Rhythmic Breathing vi) Controlling the Body, Mechanism of Body: Kriyas and its high Therapeutic value. vii) Body as understood in its frame work systems and structure:.Asanas Cultural and Relaxation

Asanas - viii) Muscles strength, Muscular coordination strength of Immune system ix) Relation and Reflection techniques Shavasana Shakshi Bhavanam. x) Bandhas and Mudras. xi) Depth of perception and expansion of awareness xii ) Gross level Muscular stretches xiii) Subtle level Respiration changes and normalizing breath 2. MEDITATION AND ITS TECHNIQUES: 10 Meditative postures and kinds of Meditation

Page 129: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

Bodily Benefits Lower Blood Pressure ,lowers the levels of blood lactate, improves the immune system, increases body vitality, controls insomnia and increases overall health of the body

Violence Free Society Meditation develops happiness, contentment and calmness. When increasing number of people practice meditation, it has a calming effect on the environment. This is a potent way to achieve a violence free society.

Mental Benefits Emotional stability, anxiety decreases, anger reduces, happiness increases, and intuition develops clarity and peace of mind, induces ability to focus, and reduces tension and fear.

Value Based Society The effects of meditation include happiness, respect for the environment and others, appreciation of diversity in nature, a strong sense of social values. These qualities an individual level, helps develop a value based social system.

Spiritual Growth Consciousness evolves, meditation brings harmony in creation, personal transformation, realization of SELF

Trusting, Happy and Content Society These are the objectives of any society. Meditation empowers a society to achieve these qualities. 3. ART OF LIVING 08

1. Sudarshan Kriya 2. Life Skills 3. Ancient Wisdom 4. Practical knowledge to deal with the daily challenges of life 5. Interactive exercises 6. Dealing with your emotions 7. Improving Communication skills and Relationship

4. STRESS MANAGEMENT FOR STUDENTS 04 Stress management techniques:

1. Time management techniques 2. Organization techniques 3. Create a study environment 4. Memorization techniques 5. Be an Optimist 6. Sleep Well 7. Study Techniques

6. IMPLEMENTATION STRATEGY AND PRACTICE SKILL 1. The students will be performing practice sessions covering above topics. 2. Live demonstration along with content delivery sessions will be conducted. 3. The lecture room/ Hall separately will be assigned batchwise as per Time Table for Male (Boys) and Female(Girls) as where an applicable depending upon relevant topics. 4. The materials/ Items required example Yoga Matt/ Chatai/corresponding matt / towels / chadar are to be brought by students only for particular topics.

7.0 BOOK LIST:- 1. The Yoga Sutra of Patanjali M.R.Yardi, Bhandarkar Oriental Research Institute, Pune 2. Indian Philosophy by Dr. S. Radhakrishanan 3. Introduction to Indian Philosophy by Dutta & Chatterji 4. Outlines of Indian Philosophy by Hiriyanna. 8.0 Book for reference

Page 130: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. The Yoga system of Patanjali, James, Hougton , wood. 2. Yoga a sutras of Patanjali Sadhana pada with Exposition of Vyasa 3. Light of Yoga (on Yama Niyama) by B.K.S. Iyenger, Iyenger Institute Pune 4. Hatha Yoga Pradeepika Yogi Swatmarama 5. Science of Yoga by I.K.Taimini 9.0 WEB REFERENCES:

1. http://www.artofliving.org 2. http://www.bkwsu.org 3. http://www.theyogainstitute.org 4. http://www.managingstress.com

The above subject will be taken by concerned expert in the field/ relevant to performance / performing practices, 02 credits are equivalent to (02 hours) practice session. Attendance and performance is mandatory for granting the term and earning the credits as per attendance rule.

Page 131: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS: Course: Diploma in Industrial Electronics Semester : VII Subject: #Robotics Code : 120418 Group: A* Compulsory 2. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory Hrs. per week

Practical Hrs. per week

Paper Sessional T/W ORAL

Total

Hrs.

Np

Mks

04 02 06 03 01 80 20 50@ 50** 200

3. RATIONALE: This course enables students to know the fundamental & application of robotics & how to control industrial robot. 4. OBJECTIVES: After studying the subject student will be able to: 1. Analyze & control industrial robot. 2. Write the specification of robotics 3. Make applications using robots 4. Maintain & safely handle robots 5. DETAILED CONTENTS:

SECTION-1 Chapter Contents : Hours Marks

1. Robots parameters 06 08 1.1 Concept of robotics 1.2 Roll of robots in various manufacturing industries 1.3 Robots specification parameters

1.3.1 Stationary robots: range of operation,speed , repeatability,teaching method, number of controllable axes,external interface PLC function, programming capacity,dimentions,weight. 1.3.2 Mobile robots: physical, constructional,power, mobility,swung radius ,software sensing and

manipulation ,onboard computing electronics.

Page 132: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

2. Robot motion 14 16 2.1 Robot classification: According to applications ,according to control systems 2.2 Robot anatomy :

Polar configuration ,cylindrical configuration ,Cartesian configuration , joint arm configuration

2.3 Robot motion : Vertical transverse , radial transverse , rotational transverse , 2 ,3 & 4 degree of freedom , speed of motion and load carrying capacity. Precision of movement: Resolution , Accuracy , Repeatability

2.4 Robot drive systems : hydraulic drives , electric drive , pneumatic drive.

3. Robot and effectors. 12 16 3.1 Gripper mechanism : CAM actuated gripper , screw type gripper , vaccum tubes , magnetic gripper , adhesive grippers , hooks and other misc . devices . 3.2 End effecters interface :

physical support , power and signal transmission ,various consideration in gripper selection

SECTION II 4. Sensors in robot. 14 20

4.1 Sensing of physical parameters : Types of sensors , tactile sensors , force / torque sensors , Proximity / range sensors .

4.2 Machine vision : function of machine vision (block diagram ) illumination techniques , sending digital image , major steps of image compression , segmentation thresholding techniques , multilevel thresholding , regions splitting , region merging , feature extraction, object recognition, noise detection and removing ( near neighbour techniques) .

5. Applications of robotics : 10 14 Material transfer ,loading/unloading , Welding : spot welding and arc welding, assembly, spray coating , future application.

6. Maintenance and safety: 08 06 6.1 Maintenance :

Robot preventive maintenance, robot refurbishment, robot overhaul, sub assembly recondition and rebuilt onsite Maintenance.

6.2 Safety in robots : work place design , safety sensors , safety monitoring. Total 64 80

Page 133: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6.PRACTICE / ASSIGNMENT: 1. To prepare a report using following points :

1. Manipulator 2. End effectors 3. Link 4. Joint 5. Robot motion 6. Robot applications

2. To verify angular displacement of the shaft of the stepper motor using a microprocessor.

3. To verify the number of rotation of the shaft of stepper motor using microcontroller.

4. To control forward and backward movement of the object coupled with the shaft of dc motor using limit switch

5. To prepare report on comparison and applications of the various types of grippers mentioned in the syllabus after conducting of the group discussion of the following points types of gripper mechanism , application and effects of loading.

6. To perform pick and place operation using magnetic operation to determine Maximum load carrying capacity for the given magnetic gripper

7. To enlist various features available in Matlab image processing tool box and to read the digital image using Matlab

8. To perform a following operation on digital image using Matlab software : edge detection ,segmentation

9. To determine various factors affecting on a proximity switch 7. IMPLEMENTATION STRATEGY (PLANNING):

1. Teaching Plan 2. Minimum 10 practicals/assignments. 3. Industrial Visit for students

8. REFERENCE BOOKS:

Sr no.

Author Title Publisher

1. Mikell P Groover Industrial Robotics McGraw Hill 2. R. J. Shilling Fundamentals of Robotics Prentice hall of India 3. R. D. Klafter Robotics Engineering Prentice Hall of India

Web Reference:

1. www.robots.com 2. www.robots.epson.com

Page 134: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

9. QUESTION PAPER PATTERN Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks 1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -

Page 135: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

Course : Diploma in Industrial Electronics Semester : VII Subject : #Power Electronics Code: 120419 Group : A* Compulsory 2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory Hrs. per week

Practical Hrs. per week

Paper Sessional T/W PRL

Total

Hrs.

Np

Mks

04 02 06 03 01 80 20 50@ 50** 200 3. RATIONALE: This course enables students to understand basics and applications of AC & DC drive. 4. OBJECTIVE: After studying the subject student will be able to

1. Understand and design a control system for a DC. drive 2. Understand basics and working of an AC drive 3. Realize the requirement and use of these drives in various industries.

5. Subject Details: SECTION-1 Chapter Name of the topic Hours Marks 1. Introduction 08 10

1.1 Basic element of Drive 1.2 Adjustable Speed drive & its requirement. 1.3 Four Quadrant operation of hoist, D.C drive & A.C drive & their comparison 1.4 Load torque speed characteristics 1.5 Stability of drive (no mathematical derivation) 1.6 Factors considered for drive selection, starting & breaking of electric motors

2. Chopper controlled D.C motor 06 07

3.1 Basic Chopper circuit, D.C chopper using Power MOSFET 3.2 Power Control or Motoring Control 3.3 Regenerative Motoring Control 3.4 Two Quadrant Chopper Drives 3.5 Four Quadrant Chopper Drives

Page 136: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3. Converter controlled D.C motors 12 15 3.1 Speed torque characteristics of D.C motors, 3.2 Types of single phase converter drive 3.2.1 Single phase half wave converter. 3.2.2 Single Phase Semi converter Drives 3.2.3 Single Phase full converter Drives 3.2.4 Single Phase Dual converter Drives 3.3. Types of three phase half wave converter 3.3.1 Three Phase Half Converter Drives 3.3.2 Three Phase Semi Converter Drives 3.3.3 Three Phase Full Converter Drive 3.3.4 Three Phase Dual Converter Drive

4. Advanced techniques of D.C motor control 06 08 4.1 Advantage of microprocessor & microcontroller for D.C drive 4.2 Microcontroller based stepper motor Control

4.3 Phase locked loop control of D.C motor

SECTION-II

5. Introduction to Motor Control 20 25 5.1 Star delta connection, advantages of converter

fed induction motor speed torque characteristic of induction motor

5.2 Different method of speed control of Three Phase induction Motor 5.2.1 Stator Voltage Control 5.2.2 Stator Frequency Control 5.2.3 Stator frequency and Voltage Control 5.2.4 Stator Current Control 5.2.5 Static Rotor resistance Control 5.2.6 Slip Power Recovery Schemes a. Static Kramer Drive b. Static Scherbius Drive

6. Drive for specific application 12 15 Block diagram, sequence of stages and drive Required at each stage for following application 6.1 Textiles mills 6.2 Steel rolling mills 6.3 Cranes and hoists 6.4 Cement mills 6.5 Paper mills 6.6 Sugar mills

6.7 Machine tools application 6.8 Coal mining Total 64 80

Page 137: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6.PRACTICE: 1. Measure the output power of chopper for resistive load by using frequency and

/or duty cycle of chopper 2. Find effect on speed and torque of given DC series motor by varying armature

Voltage using step up/down chopper . 3. Find effect on speed and torque of given DC separately excited by varying field

Voltage 4. Find the variation in armature voltage and speed of given separately excited motor by

Advancing 7 retarding the firing pulses of SCR using single phase semi converter. 5. Find the variation in armature voltage & speed of given separately excited motor

By Advancing 7 retarding the firing pulses of SCR using single phase full converter. 6. Find the variation in armature voltage and speed of given separately excited motor by

Advancing 7 retarding the firing pulses of SCR using three phase full converter. 7. Find the effect of change of rotor resistance of induction motor speed. 8. Measure the speed of given induction motor for various stator voltages using A.C

voltage controller. 9. Develop the program using microprocessor / microcontroller to control the speed of

given stepper motor. 7. IMPLEMENTATION STRATEGY (PLANNING):

1. Teaching Plan 2. Minimum 12 Practicals/assignments. 3. Industrial Visit for students

8. REFERENCE BOOKS : Sr.No. Author Title Publishers & Address

1. Cyril W.Lander Power Electronics TMH, new Delhi

2. S. Chapman Electrical Machine Fundamental McGraw Hill Singapore

3. G.K Dubey Electrical Drives PHI New Delhi

4. P.C SEN Power Electronics TATA McGraw Hill

5. B.L Thareja A.L Thareja

Electrical Technology Volume-II A.C & D.C Machine

S. Chand & Company

6. Vedam Subrahmanyam Thyristor Control of Electrical device

TATA McGraw Hill

7. Vedam Subrahmanyam Electric Drives TATA McGraw Hill

8. S.K Bhattacharya & S.Chaterjee

Industrial Electronic & Control TATA McGraw Hill

Page 138: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

9. QUESTION PAPER PATTERN Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks 1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -

Page 139: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1.SUBJECT DETAILS:

Course : Diploma in Industrial Electronics Semester : VII Subject : Process Control Instrumentation Code: 120420 Group : A* Compulsory 2.TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory Hrs. per week

Practical Hrs. per week

Paper Sessional T/W Oral

Total

Hrs.

Np

Mks

04 02 06 03 01 80 20 25@ 50** 175

3.RATIONALE: Process control knowledge is essential for the final assembly and testing of the process control loop and system as a whole. 4.OBJECTIVES: After studying the subject student will be able to 1.Define process control characteristic such as element modes and stability along with detail knowledge of measurement technique. 2.Explain control mode implementation, final element functions . 3. Plot the response of different controllers. 5. DETAILED CONTENTS SECTION-1 Chapter Contents Marks Hours 1 1.0 Process control

1.1 Introduction, control system :Process control principles, servo 08 03 mechanism

1.2 Block diagram of process control :Element identification, Block diagram representation 1.3 Evaluation of control system : Stability, regulation, transient regulation, criteria for evaluation. Analog and Digital processing, Time Response. 2 2.0 Final Control 04 03 Control elements, signal conversion, electrical, pneumatic, Hydraulic actuator

3 3.0 Discrete state process control : 16 16

System characteristics, specification of process, logic symbols., ladder diagram, examples, programmable controller functional diagrams, operation, programming .

Page 140: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

4 4.0 Controller principles: 12 10 Process characteristic, process equations, process lag, self regulation 4.1 Control system parameters: Error, variable range, control parameter range, control lag ,dead time, cycling. 4.2 Controller modes : Discontinuous-two position, multi position, floating control. Continuous: Proportional, integral, derivative, and composite mode.

SECTION- II

5 5.0 Analog controllers: Features, single and composite control 14 12 modes, design consideration.

5.1 Digital controller: Different methods, data logger, type, features, Computer based control.

6 6.0 Control loop characteristic: 08 06 Configuration of control system, multivariable control system, quality of control system, definition, measure of quality.

6.1Stability: Instability sources, criteria for stability, process loop tuning. 7 7.0 Neural network, basic concepts, neurons, feed forward 08 06 network, learning and application 7.1 Fuzzy control: Elements of fuzzy logic, fuzzy controller, fuzzy interference, defuzzyfication 8 8.0 HMI :Local operator panels 04 04 8.1 Need for HMI 8.2 Types and characteristic of local HMI operator panels 8.2.1 Introduction to programming of HMI panels 8.2.2 Interface between HMI panels and PLC

9 9.0 HMI :SCADA 06 04

9.1 Definition of SCADA 9.1.1 Functional block diagram 9.1.2 Function of SCADA 9.1.3 Communication between PLC and SCADA 9.2 SCADA Applications . Total 80 64

Page 141: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6.PRACTICE: 1. Study of servo mechanism. 2. Servo amplifier. 3. Study of stepper motor. 4. Study of PLC. 5. PLC Progrmming 6. Error detector. 7. Temp. control using IC 8. ON/OFF control 9. Proportional control. 10. Integral control. 11. PI controller. 12. PD controller. 13. PID controller. 14. Assignment on control loop characteristics. 15. Assignment on fuzzy logic. 16. Assignment on SCADA. 17. Derivative Controller. 7. IMPLEMENTATION STRATEGY (PLANNING):

1. Teaching Plan 2. Minimum 12 practicals /assignments. 3. Industrial Visit for students.

8.REFERENCE BOOKS:

SN. Author Title Publication 1 Curtis Johnson Process control instrumentation Technology Pearson Education

2 B.Kosco Neural networks and fuzzy systems PHI 3 M.A.Mitra &

S. Sengupta Programmable logic controllers and industrial automation

Penram international

4 B.J.Liptak Chilton Co.

9. QUESTION PAPER PATTERN Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks 1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -

Page 142: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS :

Course : Diploma in Industrial Electronics Semester : VII Subject : # Project Code: 120421 Group : A* Compulsory 2. TEACHING AND EXAMINATION SCHEME :

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory Hrs. per week

Practical Hrs. per week

Paper Sessional T/W Oral

Total

Hrs.

Np

Mks

- 06 06 - - - - 50@ 50** 100

3. RATIONALE : The project developed for any electronic application gives an in depth understanding of all the concepts learnt at the lower semesters. The students are also exposed to the various stages of making a project. It will enhance the design abilities in a student and the capability to work in a team. 4. OBJECTIVES : After developing a project the students will be able to :

1. Design an electronic circuit 2. Design PCB 3. Test and calibrate the electronic equipment 4. To write the Project Report

Each student/group of students will submit detailed project report with following details a) Schematic diagram b) Working of the project and documented program c) PCB artwork d) Assembly drawing e) Front panel drawing f) Specification sheet g) List of components and cost

5. BASIS OF MARKING :

Students will be assessed on the basis of a) Understanding and completeness of the Project b) Approach to the solution of problem c) Planning and implementation d) Design and testing procedure e) Project Report f) Students involvement in the Project

Page 143: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS : 2. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks Theory Hrs. Per

Week

Practical Hrs. Per

Week

Paper TH Sessional T/W Pract. Total

Hrs. Np Mks

03 - 03 03 01 80 80 20 - - 100 3. RATIONALE:

Management is the process of getting work done through people for achieving the objectives of ers the fundamentals principles, objectives,

techniques and various processes and activities of management. Along with attaining the necessary technical knowledge, the technical students also require some inputs in management areas so as to enable them to carry out their work effectively and efficiently. This subject will enable the students to understand and apply management processes and techniques in the industrial organization. 4. OBJECTIVES : Students will be able to:-

1. Understand the process of formation and promotion of Industry. 2. Understand and apply the necessary Management/ Supervisory skills required in the

organization 3. Know and understand the basic principles of supervision.. 4. Understand the principles and practices in Human Resources Management. 5. Understand the basics concept of marketing, purchasing, finance and accounts.

5. DETAILED CONTENTS :

SECTION-I

Chapter Content Hours

Marks

1. Introduction to Indian Industry 1.1 Meaning - Definition 1.2 Classification of Industry 1.3 Infrastructure and Location of Industry 1.4 Importance of Industry 1.5 Types of required in industries.

04 07

Course: ME/CE/CH/IE/DE/EE Semester : VI/VII Subject: # Industrial Management Code : 120024Group: M* Compulsory

Page 144: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

2. Types of Ownership of Industry 2.1 Proprietorship 2.2 Partnership 2.3 Private Ltd Company 2.4 Public Ltd Company 2.5 Co-operative Enterprises 2.6 Public Sector Enterprises

04 07

3. Supervisor & Supervision 3.1 Meaning and defination 3.2 Role and Responsibilities of supervisor 3.3 Qualities of Supervisor 3.4 Skills of Supervisor 3.5 Functions of Supervisor

05 08

4. Management 4.1Introduction to management 4.2Meaning, definition and importance. 4.3Relevance of management to engineers. 4.4Principles of management. 4.5Resorces of management

05 08

5. Human resource management 5.1 Importance of human resources to industry. 5.2 Recruitment, selecting and placement of man-power. 5.3 Employee welfare measures in industry. 5.4 Industrial Training. 5.5Indutrial safety

06 10

SECTION II

6. Industrial Relations 6.1 Meaning and Importance. 6.2 Types of Industrial Relations. 6.3 Industrial disputes Causes. 6.4 Methods and machinery for resolving industrial disputes. 6.5 Trade union Its role in maintaining industrial peace.

03 06

7 Procurement 7.1 Types of purchase. 7.2 Principles of purchase. 7.3Purchase procedures. 7.4 Inventory and inventory control. 7.5 Duties of storekeeper.

03 06

Page 145: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8. Marketing 8.1 Importance of marketing. 8.2 Difference between Sales and marketing. 8.3 Product life cycle and marketing strategies. 8.4 Channels of distribution. 8.5 Packaging and advertising.

05 08

9. Finance 9.1 Sources of finance. 9.2 Working capital and fixed capital. 9.3 Financial statements of a company. 9.4 Financial ratios. 9.5 Budgets and budgetary control.

05 08

10. Cost and cost calculation 10.1 Objectives of cost calculation. 10.1 Classification of cost. 10.3 Variable and fixed cost. 10.4 Direct and indirect cost. 10.5 Functional cost. 10.6 Cost control and cost reduction. 10.7 Overheads and types of overheads. 10.8 Cost calculation of a product. 10.9 Break even analysis. 10.10Depreciation depreciation calculation.

08 12

TOTAL 48 80

6 . IMLEMENTATION STRATEGY:

1 . Lesson Plan 7 .REFERENCE BOOKS : Sr.No.

Author Title Edition Year of Publication

Publishers & Address

1. T.R. Banga S.C. Sharma

Industrial Organisation & Management

12 2012 Khanna Publication

2. O.P. Khanna Industrial Management

5 2012 Dhanpat Rai & Sons

3 T.R. Banga S.C. Sharma

Industrial organization and Engineering Economics.

10 2010 Khanna Publication

4 Shelekar

Industrial Management

4 2011

Page 146: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

8. QUESTION PAPER PATTERN:

Que. No

SECTION-1 SECTION- 2 PERIODICAL TEST BITS MARKS BITS MARKS BITS MARKS

1 Any 3out of 5 12 - - Any 2 out of 3 6 2 Any 2 out of 4 12 - - Any 2 out of 3 8 3 Any 2 out of 3 16 - - Any 1 out of 2 6 4 - - Any 3out of 5 12 - - 5 - - Any 2 out of 4 12 - - 6 - - Any 2 out of 3 16 - -

Page 147: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS:

Course: Diploma in Industrial Electronics Semester: VII Subject: #Advanced Communication Engg. (Elective) Code: 120422 Group: A* Compulsory 2. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory Per Week

Practical Per Week

Paper SSL T/W Oral TOTAL

Hrs

NP Mks

4 2 06 03 01 80 20 50@ 50** 200 3. RATIONALE: This course will enable students to understand different advanced communication systems. 4. OBJECTIVES: After studying the subject student will be able to 1. Explain use of information theory and coding techniques in Digital Communication. 2. Classify different types of RADAR. 3. Explain propagation of signals in satellite, fiber and microwave communication systems. 4. Explain the architecture of cellular mobile network and various aspects of mobile communication. 5. DETALED CONTENTS:

SECTION-I

Contents Marks Hrs

1. Information Theory & Coding 10 08 1.1 Amount of information , Rate of

Information, Entropy, channel, efficiency 1.2 -channel capacity 1.3 Error detecting & correcting codes-

Parity code, Hamming code, CRC. Problems based on above topic

2. Radar 13 10 2.1 Fundamentals 2.2 Radar Range Equation 2.3 Pulse Radar 2.4 Antenna scanning & tracking 2.5 Display methods 2.6 Moving target indicator (MTI) 2.7 Radar beacons 2.8 C W Doppler radar 2.9 Frequency modulated CW Radar Problems based on above topic

3. Satellite Communication 17 14 3.1 Overview of satellite communication 3.2 Kepp 3.3 Orbital parameters

Page 148: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3.4 Look angles 3.5 Types of orbit 3.6 Launches and Launch vehicles 3.7 Satellite sub-system 3.7.1 Attitude and orbit control system 3.7.2 Telemetry, tracking, command & monitoring 3.7.3 Transponders 3.8 Multiple access- FDMA, TDMA3.9 VSAT 3.10 Digital DBS TV 3.11 GPS 3.12 Dish Antenna Problems based on above topic

SECTION-II

4. Fiber Optic Communication 15 12 4.1 Introduction 4.2 Types of optical fiber 4.3 Transmission characteristics- Attenuation, Dispersion 4.4 Optical sources- LASER, LED 4.5 Optical detectors-photodiode, avalanche photodiode 4.6 WDM

Problems based on above topic

5. Microwave Communication 15 12 5.1 Microwave waveguides and components 5.1.1 Rectangular waveguides 5.1.2 Circular waveguides 5.1.3 Cavity resonators 5.1.4 Waveguide coupling, matching & attenuation 5.1.5 Directional couplers, circulators & isolators 5.2 Microwave tubes and devices: Klystron, Reflex Klystron, Magnetron, TWT, Gunn diode

Problems based on waveguides.

6. Introduction to Mobile Communication 10 08 6.1 Cellular concepts 6.2 Multiple access technologies 6.3 Cellular system operation 6.3.1 System architecture 6.3.2 Location updating & call setup 6.3.3 Hand off & power control 6.4 Digital cellular mobile 6.4.1 GSM- N/w architecture, Service aspects, Radio aspects & Security aspects 6.4.2 CDMA- N/w architecture, Service aspects, Radio aspects

& Security aspects Total 80 64

Page 149: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6. PRACTICE: 1. Study of Fiber optic kit. 2. Propagation in Optical fiber, analog link, digital link. 3. TDM of Voice & data. 4. Measurement of Numerical aperture. 5. Measurement of Attenuation in fiber. 6. Measurement of bit error rate in fiber. 7. Voice coding A- -law.8. Study of different fibers 9. Study of source characteristics. 10. Study of detector characteristics. 11. Study of Microwave waveguide kit. 12. Power and Attenuation measurement. 13. Wavelength measurements. 14. Standing wave measurements. 15. Measurement of impedance. 16. Study of Directional coupler. 17. Frequency measurements using cavity wave meter.

7. IMPLEMENTATION STRATEGY (PLANNING):

1. Teaching Plan 2. Minimum 12 practicals/assignments in the term 3. Industrial Visit for students

8. REFERENCES:

Sr.No Author Title Publishers 1. George Kennedy Electronic Communication Systems TMH, New Delhi

2. Taub Schilling Principles of communication TMH, New Delhi 3. Raj Pandya Mobile & Personal Communication System & Services PHI

4. Lee W.C.Y. Mobile Cellular Telecommunication McGraw Hill 5. Timothy Pratt. Satellite Communication WSE 6. John Senior Optical fiber communication(Principles and practice) Pearson Education

9. QUESTION PAPER PATTERN Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks 1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -

Page 150: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS : Course : Diploma in Industrial Electronics Semester : VII Subject: #Embedded System (Elective) Code : 120709 Group : A* Compulsory

2. TEACHING AND EXAMINATION SCHEME:

Teaching Scheme Credits Examination Scheme and Maximum Marks

Theory Hrs. per week

Practical Hrs. per week

Paper Sessional T/W ORAL

Total

Hrs.

Np

Mks

04 02 06 03 01 80 20 50@ 50** 200 3. RATIONALE: This course enables students to know the devices, buses and also learn the embedded systems applications. It helps student to get thorough explanation of embedded hardware architecture, interfacing techniques, protocols, hardware and software interrupt, embedded software programming, modeling, inter-process synchronization and real time operating system.. 4. OBJECTIVES: After studying this subject student will be able to 1. Define Embedded systems. 2. Develop software for Embedded systems. 3. Develop applications like Smart card, Robots, Automobile control, Mobile phone, Process Control systems 5. DETAILED CONTENTS:

SECTION-I

Chapter Content Hrs Marks

(1) Introduction to Embedded Systems 04 05

(2) Embedded Microcontrollers : - ARM7 TDMI 32-Bit microcontroller architecture and 20 25 instruction set

- Memory organization Memory selection for an embedded system. - Dynamic Memory Access. -Interfacing of memory and processor -Embedded mass storage and FAT file system.

Page 151: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

(3) Devices And Buses : I/o devices 08 10 -Timer and Counting devices.

- USB, CAN, RS232, RS485. - I2 c buses.

- I/o devices : Keypad, Display interface (LCD, Touchscreen, Graphic devices)

SECTION-II

(4) Device Drivers and Interrupt Servicing Mechanism : - Device Drivers -Parallel port drivers -Serial port drivers, -Interrupt servicing -Multiple Interrupts -Deadline and Interrupt latency.

(5) Programming And Testing -Assembly Level Programming -Cross Compliers -IDE & Source Level Debugger. (6) Real time operating system

-Operating system services -Process management -Timer Functions -Event Functions -Memory management -Device file and I/o subsystem management -Interrupt routines in RTOS environment.

(7) Case Studies: CODE C, Smart card, Robots, Automobile

control, Mobile phone, Process control. Total

08

06

10

08 64

10

08

12

10

80

Page 152: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6. PRACTICE: 1. Programs based on ARM7TDMI microcontroller 2. Interfacing programs on serial port, parallel port 3. Program on interrupt 4. Study of RTOS 5. Assignment on Case Studies.

7. IMPLEMENTATION STRATEGY (PLANNING):

1. Teaching Plan 2. Minimum 12 practicals /assignments. 3. Industrial Visit for students

8. REFERENCE BOOKS : Sr.No Author Title Publishers & Address

1. Rajkamal Embedded Systems Architecture Programming & Design

Tata McGraw Hill

2. David Simon An Embedded Software _

3. Technical Reference Manual of ARM7TDMI

_

_

4. Jonathan W. Valvano Embedded Microcontroller System- Real Time Interfacing

Thomson

Web reference: www.intel.com www.goembedded.com www.arn.com 9. QUESTION PAPER PATTERN Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks 1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -

Page 153: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

1. SUBJECT DETAILS : Course : Diploma in Industrial Electronics Semester : VII Subject : Advanced Processor and PC Architecture Code : 120710 Group : A Optional 2. TEACHING AND EXAMINATION SCHEME :

3. RATIONALE : Since the introduction of IBM PC, the microprocessor market has matured significantly. Most of the important advances in the computer system technology have been closely related to the development of high performance microprocessors. These high performance microprocessors have become more widely used in the design of new electronic equipments and computers. Hence, there is a need to keep updated with the advanced processors. 4. OBJECTIVES : After studying the subject student will be able to 1. Write assembly language programmes using Intel 8086/80486 instruction set 2. Design systems using peripheral integrated circuits 3. Understand functioning of Personal Computer 5. DETAILED CONTENTS :

SECTION-I Hours Marks 1. Intel 8086 12 12 1.1 Architecture 1.2 Memory organization 1.3 Interrupt structure 1.4 Timing diagrams 1.5 Minimum mode and maximum mode 2. Instruction set and programming 06 08 2.1 Addressing modes of 8086 2.2 Instruction set 2.3 Assembler, Directives 2.4 Assemble language programming

Teaching Scheme Credits Examination scheme and Maximum marks Theory Per

Week

Practical Per Week

Paper SSL T/W PR

TOTAL Hrs

NP Mks

4 2 06 03 01 80 20 50@ 50** 200

Page 154: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

3. System design using, 8086 microprocessor 06 08 (in minimum and maximum mode) 3.1 Clock Generator 3.2 Latch 3.3 Bus controller 3.4 Memory Interfacing 3.5 I/O Port Interfacing 3.6 Interrupt controller 3.7 Bus Transceiver 3.8 DMA Controller 3.9 Serial Port (COM Port) 3.10 Timer/Counter 4. Study of 80486 Microprocessor 08 12 4.1 Architecture 4.2 Task switching 4.3 Protection 4.4 Memory management

SECTION - II 5. Advances in Processor Architecture 12 16 5.1 Superscalar Architecture 5.2 Branch Prediction Logic 5.3 Multi core architecture 6. Study of PC Architecture 08 08 6.1 Chipset study-North/ south Bridge GMCH/10CH/FWH (Firmware Hub)

6.2 Interfaces: PCI/PCI Express PATA /SATA USB 6.3 Memory: DDR/DDR 2/DDR3 7. Study of Advanced Technology. 08 10 7.1 Hyperthreading 7.2 Virtualization technology 7.3 Power Management (Energy Efficiency).

7.4 Active Management Technology 7.5 Expanded memory technology, (EM-64T), 8. Servicing & Maintenance. 04 06 Total 64 80

Page 155: Shri Vile Parle Kelavani Mandal’s SHRI BHAGUBHAI …sbmp.ac.in/Common/Uploads/DMS/INDUSTRIAL-ELECTX_r.pdf · SHRI BHAGUBHAI MAFATLAL POLYTECHNIC NATAKKAR RAM ... 12.3 Resultant

6.PRACTICE: 1. To execute assembly language programs using Intel 8086 instruction set (Min.10 programs). 2. Assignment- System design using Intel 8086 Microprocessor in minimum and maximum mode. 3. Study of Motherboards. 4. Study of Bus. 5. Virtualization technique. 6. Servicing of PC. 7. IMPLEMENTATION STRATEGY (PLANNING): 1. Teaching Plan 2. Minimum 12 Practicals / Assignments. 8. REFERENCE BOOKS :

Sr.No. Author Title Publishers

1. Douglas V. Hall Microprocessor interfacing Programming and Hardware

Tata Mc-Graw Hill

2. Liu Gibson 8086, 80186, 80286 Microprocessor

PHI, New Delhi

3. Intel Data Sheets - Intel Corporation USA Web Reference: www.intel.com www.ibm.com 8. QUESTION PAPER PATTERN

Que. No. Section I Section II Periodical Test

Bits Marks Bits Marks Bits Marks 1. Any 3 out of 5 12 - - Any 2 out of 3 06 2. Any 2 out of 4 12 - - Any 2 out of 3 08 3. Any 2 out of 3 16 - - Any 1 out of 2 06 4. - - Any 3 out of 5 12 - - 5. - - Any 2 out of 4 12 - - 6. - - Any 2 out of 3 16 - -


Top Related