Electromagnetic Compatibility

Course Description
- As digital circuits continue to be produced at increasingly smaller size and with higher speeds, electromagnetic interference become much severer in a digital system. Therefore, the need for effective electromagnetic compatibility (EMC) design has become more critical than ever. In order to avoid unnecessary costs in bringing products into compliance with governmental regulations, many solutions are proposed to improve the interference of systems. In this course, basic concept and design method for a digital system will be illustrated elaborately.
Textbook
- Clayton R. Paul, “Introduction to Electromagnetic Compatibility”, Wiley, 2005
- Henry W. Ott, “Electromagnetic Compatibility Engineering,” Wiley, 2009
- V. Prasad Kodali, “Engineering Electromagnetic Compatibility: Principles, Measurements, Technologies, and Computer Models”, IEEE Press, 2001.
- Class notes
Grading Detail
- Assignments - 70%
- Projects - 30%
Prerequisite
- Electromagnetics I
- Electromagnetics II
Assigned Problems
- Announced and submitted in CEIBA.

Course Content (last updated: 2019.03.12)

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Syllabus
Lecture 1 : EMC Introduction
Lecture 2 : Signal Spectra (1)
Lecture 3 : Signal Spectra (2)
Lecture 4 : Transmission Line and Signal Integrity
Lecture 5 : Crosstalk
Lecture 6 : Cable Shielding and Twisted Pair
Lecture 7 : Antenna for EMC
Lecture 8 : Radiated Emission and Susceptibility
Lecture 9 : Radiated Emission Measurements
Lecture 10 : Shielding
Lecture 11 : Conducted Emission
Lecture 12 : ESD
Complement 1 : Overview of EMC Regulations and Testing
Complement 2 : Extraction of Frequency Dependent Inductance and Resistance
Complement 3 : Layer peeling
Complement 4 : Q3D Training
Complement 5 : Introduction to the Periodogram Method