BASIC THEORY: Intra and inter-system EMI, Elements of Interference:
Conducted and Radiated EMI emission and susceptibility, EMC Engineering Application.


COUPLING MECHANISM: Coupling paths, Coupling via the supply network, Common mode coupling, Differential mode coupling, Impedance coupling, Radiative coupling, Ground loop coupling, Cable related emissions and coupling, Transient sources, Automotive transients. Categorization of the electromagnetic interference: emission, susceptibility, transients, crosstalk, shielding and compatibility, signal integrity.

EMI MITIGATION TECHNIQUES: Working principle of Shielding, LF Magnetic shielding, Apertures and shielding effectiveness, Choice of Materials for H, E, and free space fields, Gasketting and sealing PCB Level shielding,
Principle of Grounding.

STANDARDS AND REGULATION: Need for Standards, EMI Standardizing for different applications. IEC, ANSI, FCC, AS/NZS, CISPR, BSI, CENELEC, ACEC. MIL461E

EMI TEST METHODS AND INSTRUMENTATION: Fundamental considerations, EMI Shielding effectiveness tests, Open field test, TEM cell for immunity test, Shielded chamber, Shielded anechoic chamber, EMI test receivers, Spectrum analyzer, EMI test wave simulators, EMI coupling networks, Line impedance stabilization networks, Feedthrough capacitors, Antennas, Current probes.

BASICS OF BIOLOGICAL EFFECTS OF EM WAVES: Ionizing and non-ionizing radiation. Theoretic and diagnostic use of EM waves. Measurement techniques of EM radiation. Protective design techniques.