Committee login






Small thumbnail

Reliability Investigation of LED Devices for Public Light Applications

Durability, Robustness and Reliability of Photonic Devices Set

Small thumbnail

Aerospace Actuators 2

Signal-by-Wire and Power-by-Wire

Small thumbnail

Flash Memory Integration

Performance and Energy Considerations

Small thumbnail

Mechanics of Aeronautical Solids, Materials and Structures

Small thumbnail

Engineering Investment Process

Making Value Creation Repeatable

Small thumbnail

Space Strategy

Small thumbnail

Distributed Systems

Concurrency and Consistency

Small thumbnail

Fatigue of Textile and Short Fiber Reinforced Composites

Durability and Ageing of Organic Composite Materials Set Volume 1

Small thumbnail

Management of the Effects of Coastal Storms

Policy, Scientific and Historical Perspectives

Small thumbnail

Computational Color Science

Variational Retinex-like Methods

Small thumbnail

Electromagnetic Compatibility in Power Electronics

Francois Costa, Paris-Est Creteil University and SATIE-ENS Cachan, France Cyrille Gautier, University of Paris 10 and SATIE-ENS Cachan, France Eric Laboure, University of Paris Orsay 11 and LGEP-Supelec, France Bertrand Revol, SATIE-ENS Cachan, France

ISBN: 9781848215047

Publication Date: December 2013   Hardback   288 pp.

145.00 USD

Add to cart


Ebook Ebook


The increasing demand for electrical energy in ground and air transport is leading to the extensive use of equipment based on power electronics. Progress in power semiconductors, the technology at the heart of these devices, has enabled us to greatly increase their energy density with an excellent yield. However, the wide dissemination of these technologies, and the rise in the frequency and speed of the switching of semiconductors is leading to a significant increase in the electromagnetic pollution that they produce.
The phenomena of electromagnetic compatibility in power electronics are discussed and illustrated by the authors of this book using concrete cases from industrial applications. Starting with the concept of a switching cell, the emission of electromagnetic disturbances is explained, modeled, and then the approach is generalized for more complex systems. Finally, specific means for the reduction of parasitic phenomena are given, more particularly aspects related to power electronics, filtering and shielding.


1. Phenomena of Perturbation in Electrical Systems.
2. Fundamental Principles.
3. EMC of Complex Electrical Energy Conversion Systems: Electromagnetic Actuators.
4. Concrete Study of Solutions for the Reduction of Electromagnetic Perturbations.

About the Authors

Francois Costa is Professor at ESPE, Paris-Est Creteil University and a researcher at the SATIE laboratory (CNRS-ENS Cachan) in France.
Cyrille Gautier is Associate Professor at IUT, Ville d'Avray, University of Paris 10 and a researcher at the SATIE laboratory (CNRS-ENS Cachan) in France.
Eric Laboure is Professor at IUT, University of Paris Orsay 11 and a researcher at the LGEP (CNRS-SUPELEC) laboratory in France.
Bertrand Revol is Associate Professor at Ecole normale superieure de Cachan (ENSC) and a researcher at the SATIE laboratory (CNRS-ENS Cachan) in France.


DownloadTables of Contents - PDF File - 70 Kb

0.01637 s.