A Landmark text thoroughly updated, including a new CD
As digital devices continue to be produced at increasingly lower costs and with higher speeds, the need for effective electromagnetic compatibility (EMC) design practices has become more critical than ever to avoid unnecessary costs in bringing products into compliance with governmental regulations. The Second Edition of this landmark text has been thoroughly updated and revised to reflect these major developments that affect both academia and the electronics industry. Readers familiar with the First Edition will find much new material, including:
- Latest U.S. and international regulatory requirements
- PSpice used throughout the textbook to simulate EMC analysis solutions
- Methods of designing for Signal Integrity
- Fortran programs for the simulation of Crosstalk supplied on a CD
- OrCAD(r) PSpice(r) Release 10.0 and Version 8 Demo Edition software supplied on a CD
- The final chapter on System Design for EMC completely rewritten
- The chapter on Crosstalk rewritten to simplify the mathematics
Detailed, worked-out examples are now included throughout the text. In addition, review exercises are now included following the discussion of each important topic to help readers assess their grasp of the material. Several appendices are new to this edition including Phasor Analysis of Electric Circuits, The Electromagnetic Field Equations and Waves, Computer Codes for Calculating the Per-Unit-Length Parameters and Crosstalk of Multiconductor Transmission Lines, and a SPICE (PSPICE) tutorial.
Now thoroughly updated, the Second Edition of Introduction to Electromagnetic Compatibility remains the textbook of choice for university/college EMC courses as well as a reference for EMC design engineers. Author Information
Clayton R. Paul, PhD, is Professor and the Sam Nunn Eminent Professor of Aerospace Systems Engineering in the Department of Electrical Engineering and Computer Engineering at Mercer University in Macon, Georgia. He is also Emeritus Professor of Electrical Engineering at the University of Kentucky. Dr. Paul is the author of numerous textbooks on EE subjects and technical papers, the majority of which are in his primary research area of EMC of electronic systems. He is a Fellow of the IEEE and an Honorary Life Member of the IEEE EMC Society.
Table of Contents.
Preface.
1. Introduction to Electromagnetic Compatibility (EMC).
2. EMC Requirements for Electronic Systems.
3. Signal Spectra-The Relationship Between theTime Domain and the Frequency Domain.
4. Transmission Lines and Signal Integrity.
5. Nonideal Behavior of Components.
6. Conducted Emissions and Susceptibility.
7. Antennas.
8. Radiated Emissions and Susceptibility.
9. Crosstalk.
10. Shielding.
11. System Design for EMC.
Appendix A: The Phasor Solution Method.
Appendix B: The Electromagnetic Field Equations and Waves.
Appendix C: Computer Codes for Calculating the Per-Unit-Length Parameters and Crosstalk of Multiconductor Transmission Lines.
Appendix D: Spice (PSPICE) Tutorial.
Index.
Hardcover, 1016 pages
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