field & wave electromagnetics 电磁场与电磁波cms.szu.edu.cn/emc/ppt/1&2.pdf · text...
Post on 16-May-2018
468 Views
Preview:
TRANSCRIPT
Field & Wave Electromagnetics 电磁场与电磁波
(双语教学)
深圳大学信息工程学院通信工程系
何业军
副教授
Email: heyejun@126.com
Introduction• Text Book:
Field and Wave Electromagnetics, (Second Edition)
by David K. Cheng• Teaching Website: http://cms.szu.edu.cn/emc• Course Assessment:
Attendance 15%Homework (Projects, experiment) 15%Final Exam (Open-book Exam) 70%
Contents to be covered (Total 54 hours)
• Chapter 1 The Electromagnetic Model (2)• Chapter 2 Vector Analysis (6)• Chapter 3 Static Electric Fields (6)• Chapter 4 Solution of Electrostatic Problems (6)• Chapter 5 (*) Steady Electric Currents (2)• Chapter 6 Static Magnetic Fields (6)• Chapter 7 Time-Varying Fields and Maxwell’s Equations (6)• Chapter 8 Plane Electromagnetic Waves (6)• Chapter 9 Theory and Applications of Transmission Lines (4)• Chapter 10 (*) Waveguides and Cavity Resonators(4)• Chapter 11 Antennas and Radiating Systems(6)
Chapter 1 The Electromagnetic Model
1.1 The Electromagnetic Spectrum
1.1 The Electromagnetic Spectrum
1.2 Applications of Electromagnetics (EM)
1.2 Applications of Electromagnetics (EM)
1.2 Applications of Electromagnetics (EM)
1.2 Applications of Electromagnetics (EM)
1.2 Applications of Electromagnetics (EM)
1.2 Applications of Electromagnetics (EM)
1.2 Applications of Electromagnetics (EM)
Examples•
Propagation effects cannot be neglected when the signal path is not much smaller than the wavelength (e.g. ~0.1 wavelength)High speed digital circuits
–
System Clock ~ 2GHz
•
Inside the circuit, velocity of electromagneticwave ~ 2x108
m/s
(c is the velocity in vacuum)
–
If signal frequency f = 1GHz, wavelength λ
= 2x108
/ 1x109 = 0.2m
Examples
• High frequency analog circuits– Frequency ~ 1GHz – 10GHz
• Bluetooth• WLAN
• Optical Communications
ExamplesRadiation becomes efficient when the
dimension of conductor larger than 0.1 wavelength
• Consumer electronics
• Electromagnetic interference and compatibility
Electromagnetic Compatibility, or EMC, is the ability of a device, equipment, or system to function satisfactorily in its electromagnetic environment without introducing intolerable electromagnetic disturbances to anything in that environment.
Examples
• Other applications– Linear motor
– Computer
Example: Application of linear motor (Maglev Train)
The Shanghai Transrapid Maglev Line: speed up to 430 km/hr.
Japanese Bullet Train
What are Fields?
• Gravitational Field
• Electric Field
• Magnetic Field
Chapter 2 Vector Analysis 2.1Introduction
2.2 Vector Addition and Subtraction 2.3 Products of Vectors
2.3 Vector Operations (cont.)
2.3 Products of Vectors
2.3 Products of Vectors (cont.)
2.3 Products of Vectors (cont.)
2.3 Products of Vectors (cont.)
2.4 Orthogonal Coordinate Systems
2.4 Orthogonal Coordinate Systems
2.4 Orthogonal Coordinate Systems
2.4 Orthogonal Coordinate Systems
2.4 Orthogonal Coordinate Systems
2.4 Orthogonal Coordinate Systems
2.4 Orthogonal Coordinate Systems
2.4 Orthogonal Coordinate Systems
2.5 Vector Differential Operators
2.5 Vector Differential Operators
2.5 Vector Differential Operators
2.5 Vector Differential Operators
2.5 Vector Differential Operators
2.5 Vector Differential Operators
2.5 Vector Differential Operators
2.5 Vector Differential Operators
2.5 Vector Differential Operators
2.5 Vector Differential Operators
2.5 Vector Differential Operators
2.6 Two Null Identities
2.6 Two Null Identities
top related