Overview and details of the sessions of this conference. Please select a date or location to show only sessions at that day or location. Please select a single session for detailed view (with abstracts and downloads if available).
Please note that all times are shown in the time zone of the conference. The current conference time is: 29th June 2025, 01:32:35am CEST
Fundamentals of Electromagnetic Compatibility (Part 3)
Time:
Monday, 01/Sept/2025:
4:20pm - 5:50pm
Location:Auditorium
497 seats, basement
Session Abstract
This tutorial is an overview of many of the major topics that need to be considered when designing an electronic product or system to meet EMC requirements. The tutorial will present the foundational ideas from physics and mathematics and will demonstrate the engineering approaches to help the attendees to successfully design, evaluate, diagnose, and/or solve EMI problems. The main objective of this tutorial is to provide a learning opportunity for those that are new to EMC as well as provide a review of the basics to those who already have some experience in this area.
Presentations
4:20pm - 5:05pm
EMC in Power Electronics
Pierre-Etienne Lévy
ENS Paris-Saclay, Fr
This presentation addresses the electromagnetic disturbances generated by switch-mode power supplies. In order to control these disturbances, understanding the mechanisms of their generation within the switching cell, as well as their propagation, is a key element for both conducted and radiated emissions. Several modelling approaches (detailed, black-box, etc.) allow for the analysis of EMC in converters at different levels, enabling the design of mitigation techniques (shielding, EMC filters, adapted control).
5:05pm - 5:50pm
Grounding at System Level
Marco Klingler
Klingler International Consulting Services, France
This presentation describes the principles of grounding which involves connections to the metallic body of a structure using straps or wires in order to direct currents along the least impedance path and separate incompatible current return paths. This approach directly addresses issues such as radiated immunity, emission of harnesses, and common impedance coupling. However, implementing these grounding principles can have implications for cost, weight, routing, mounting, and maintenance.
