INDUSTRIAL ELECTROMAGNETIC COMPATIBILITY

The industrial electromagnetic compatibility is based on the study of the effects of electromagnetic fields created by electrical devices and on the design of systems to reduce their impact on themselves, on other devices or on human beings.
The aim of the course is to introduce the students to analytical models and technical aspects related to electromagnetic compatibility (EMC): radiated and conducted emissions, crosstalk, electromagnetic shielding, EMC governmental European requirements for commercial products, EMC measurements for verification of compliance, system design for EMC.

Frontal lectures on theory topics carried out by a video projector. CAD laboratory using numerical simulation software.

Should teaching be carried out in mixed mode or remotely, it may be necessary to introduce changes with respect to previous statements, in line with the programme planned and outlined in the syllabus.

Introduction to Electromagnetic Compatibility (EMC).
EMC Requirements for Electronic Systems.
Electromagnetic fields theory.
Transmission Lines and Signal Integrity.
Antennas.
Introduction to the Finite Element method for simulating 3-D full-wave electromagnetic fields.
Non-ideal Behavior of Components.
Signal Spectra.
Radiated Emissions and Susceptibility.
Conducted Emissions and Susceptibility.
Crosstalk.
Shielding.
Electrostatic discharges.
System Design for EMC.
Laboratory (1 CFU): numerical simulations, EMC measurements.

1. Paul Clayton R., Introduction to ELECTROMAGNETIC COMPATIBILITY 2nd ed.,WILEY.
2. Paul Clayton R., COMPATIBILITA' ELETTROMAGNETICA, HOEPLI Ed.
3. Material provided by the lecturer (available on Studium).