Engineering electromagnetic compatibility : principles, measurements, technologies, and computer models /
V. Prasad Kodali.
- 2nd ed.
- 1 PDF (xxii, 453 pages) : illustrations.
Includes bibliographical references and index.
Preface to First Edition. Preface to Second Edition. Introduction. Natural and Nuclear Sources of EMI. EMI From Apparatus and Circuits. Probabilistic and Statistical Physical Models. Open-Area Test Sites. Radiated Interference Measurements. Conducted Interference Measurements. Pulsed Interference Immunity. Grounding, Shielding, and Bonding. EMI Filters. Cables, Connectors, and Components. Frequency Assignment and Spectrum Conservation. EMC Computer Modeling and Simulation. Signal Integrity. EMC Standards. Selected Bibliography. Appendix 1: EMC Terminology. Appendix 2: EMI/EMC Units. Appendix 3: Books On Related Topics. Appendix 4: EMI/EMC Standards. Appendix 5: EMC e-Resources. Index. About The Author.
Restricted to subscribers or individual electronic text purchasers.
This practical, enhanced second edition will teach you to avoid costly post-design electromagnetic compatibility (EMC) fixes. Once again, V. Prasad Kodali provides a comprehensive introduction to EMC and presents current technical information on sources of electromagnetic interference (EMI), EMC/EMI measurements, technologies to control EMI, computer simulation and design, and international EMC standards. Features added to this second edition include:. Two new chapters covering EMC computer modeling and simulation and signal integrity. Expanded assignments at the close of each chapter. Illustrative examples that enhance comprehension. A new appendix that lists a selected bibliography, important standards, and Web sites relevant to EMC/EMI Engineering Electromagnetic Compatibility, Second Edition is presented in a concise, user-friendly format that combines a rigorous solutions-based, mathematical treatment of the underlying theories of EMC with the most recent practical applications. It is ideally suited as a desk reference for practicing engineers and as a textbook for students who need to understand the form and function of EMC and its relevance to a variety of systems.