The fully revised new edition of the classic textbook, an essential resource for anyone working with digital devices
Introduction to Electromagnetic Compatibility provides thorough coverage of the techniques and methodologies used to design and analyze electronic systems that function acceptably in their electromagnetic environment. Assuming no prior familiarity with electromagnetic compatibility, this user-friendly textbook first explains fundamental EMC concepts and technologies before moving on to more advanced topics in EMC system design.
The extensively revised and expanded third edition reflects the most recent advances in the field as well as current U.S. and international regulatory requirements. An entirely new chapter on circuit and system grounding is complemented by updated chapters on computer modeling for EMC, circuit board and system-level EMC design, EMC test practices, EMC measurement procedures and equipment, and more.
- Features fully-worked examples, topic reviews, self-assessment questions, end-of-chapter exercises, and numerous high-quality images and illustrations
- Contains useful appendices of phasor analysis methods, electromagnetic field equations and waves, a PSpice(R) tutorial, and computer code for calculating the per-unit length parameters and crosstalk of multiconductor transmission lines
- Includes access to a companion website with SPICE examples, appendices, exercises, links to EMC resources, and supplementary information
- Provides updated discussion of computer modeling tools, spectrum analyzers, EMC design strategies, and power bus design
The ideal textbook for university courses on EMC, Introduction to Electromagnetic Compatibility, Third Edition is also an invaluable reference for practicing electrical engineers dealing with interference issues or those wanting to learn more about electromagnetic compatibility to become better product designers.
About the Author:
Clayton R. Paul was Professor and Sam Nunn Chair of Aerospace Systems Engineering at Mercer University and Emeritus Professor of Electrical Engineering at the University of Kentucky, where he served on the faculty for 27 years. Dr. Paul authored twelve textbooks and published numerous technical papers in scientific journals and symposia. He was a Fellow of the IEEE and Honorary Life Member of the IEEE EMC Society.
Robert C. Scully is a Lead Engineer at the Johnson Space Center Electromagnetic Compatibility Group. He earned his PhD in Electrical Engineering from the University of Texas at Arlington, USA, and is an IEEE fellow. He supports NASA's major space programs including the International Space Station, the Multi-Purpose Crew Vehicle, and the Commercial Crew Development Program.
Mark A. Steffka is a Professor at the University of Detroit-Mercy. He joined the Electrical and Computer Engineering department as a full-time faculty member after his retirement from General Motors, where spent 20 years in the EMC Group. He received his M.S. from Indiana Wesleyan University and has over 35 years' experience in the design and development of military communication systems. Steffka is a Senior Member of the IEEE and has co-authored / authored many publications on EMC, Radio Frequency Interference and more.
