80220092 (Advanced Electromagnetic Compatibility)

Course Name: Advanced Electromagnetic Compatibility

Course Number: 80220092

Program: Graduate program

Type: Elective

Credits: 2

Term Offered: Fall

Prerequisite(s): Circuit theory, Electromagnetic Field, Electronic Technology

Instructor(s): Jinliang He; Shuiming Chen

Textbook(s):

Jinliang He, Introduction to Electromagnetic Compatibility, to be published.

Clayton R. Paul. Introduction to electromagnetic compatibility. New York: John Wiley and Sons, 1992.

Reference(s):

David A. Weston, Electromagnetic Compatibility: Principles and Applications, New York: Marcel Dekker, 2001.

Pierre Degauque and Joel Hamelin, Electromagnetic Compatibility, New York : Oxford University Press, 1993.

 

Course Description:

The electromagnetic compatibility is becoming a more attractive topic in the field of scientific research, device development, PCB and microelectronics design and practical engineering problems. This course is a comprehensive and systematic introduction to the theoretical basis for electromagnetic compatibility, electromagnetic interference design, protection and testing technology. This course mainly focuses on these topics: the hazards of electromagnetic interference and electromagnetic compatibility research content; the electromagnetic disturbance sources and characteristics and transmission mechanism of electromagnetic interference; the main technologies of electromagnetic interference protection, including electromagnetic shielding, grounding and bonding, electromagnetic interference filter technology, electromagnetic interference isolation and suppression techniques; the principle and the main method of electromagnetic compatibility estimation; electromagnetic compatibility of PCB and digital circuit design techniques, electromagnetic compatibility testing technology, and the major domestic and international EMC standards system.

Course Objectives and Outcomes:

1.Students could grasp the key technology and system composition in electromagnetic compatibility technology. [1, 3]

2.Students could get familiar with the process of scientific research and paper writing. [5, 6, 7, 10, 11]

3.Students could develop the abilities to put forward, analyze and solve problems. [ 3, 10]

4.Students could intensify capacity in scientific research and innovation. [3, 10]

Course Topics:

1.Introduction to Electromagnetic Compatibility

2.Electromagnetic Disturbance Sources and Characteristics

3.Electromagnetic Interference Transmission Mechanism

4.Electromagnetic Shielding

5.Grounding and Bonding

6.Electromagnetic Interference Filter Technology

7.Electromagnetic Interference Isolation and Suppression Techniques

8.Electromagnetic Interference Suppression of Signal Transmission Circuit

9.Electromagnetic Compatibility Prediction Principle

10.Electromagnetic Compatibility Problems in PCB (1)

11.Electromagnetic Compatibility Problems in PCB (2)

12.Electromagnetic Compatibility Testing Technology (1)

13.Electromagnetic Compatibility Testing Technology (2)

14.Classroom Discussion: Development of EMC Technology

 

Experiment(s):

1.Experiment 1: Electromagnetic Compatibility Laboratory Practice

2.Experiment 2: Conductive Electromagnetic Interference Test

Project(s):

Electromagnetic Interference from AC Corona

 Understand the generation and transmission of the electromagnetic disturbance source and design experiment to measure electromagnetic interference

Electromagnetic Interference from DC Corona

Understand the generation and transmission of the electromagnetic disturbance source and design experiment to measure electromagnetic interference

Switching Power Supply Protection by SPD

Understand the generation and transmission of the electromagnetic disturbance source and design experiment to solve practical engineering problem

Mobile Radiation Field Measurement

Understand the generation and transmission of the electromagnetic disturbance source and design experiment to measure electromagnetic interference

Computer Radiation Field Measurement

Understand the generation and transmission of the electromagnetic disturbance source and design experiment to measure electromagnetic interference

Electromagnetic Radiation Characteristics Portable Computer

Understand the generation and transmission of the electromagnetic disturbance source and design experiment to measure electromagnetic interference

Conductive Interference Characteristics of ESD in PCB

Understand the generation and transmission of the electromagnetic disturbance source and design experiment to measure electromagnetic interference

Radiation Interference Characteristics of ESD in PCB

Understand the generation and transmission of the electromagnetic disturbance source and design experiment to measure electromagnetic interference

Effect of Human Body on Space field and discharge current of ESD

Understand the generation and transmission of the electromagnetic disturbance source and design experiment to measure electromagnetic interference

Anti-electromagnetic Interference Characteristics of Secondary Cable

Understand the generation and transmission of the electromagnetic disturbance source and design experiment to solve practical engineering problem

Course Assessment:

Class performance and homework. 30 points.

Project presentation and report. 30 points.

Examination performance. 40 points.