## Handbook of electromagnetic compatibilityThis"know-how"book gives readers a concise understanding of the fundamentals of EMC, from basic mathematical and physical concepts through present, computer-age methods used in analysis, design, and tests. With contributions from leading experts in their fields, the text provides a comprehensive overview. Fortified with information on how to solve potential electromagnetic interference (EMI) problems that may arise in electronic design, practitioners will be betterable to grasp the latest techniques, trends, and applications of this increasingly important engineering discipline. Handbook of Electromagnetic Compatibility contains extensive treatment of EMC applications to radio and wireless communications, fiber optics communications, and plasma effects. Coverage of EMC-related issues includes lightning, electromagnetic pulse, biological effects, and electrostatic discharge. Practical examples are used to illustrate the material, and all information is presented in an accessible and organized format. The text is intended primarily for those practicing engineers who need agood foundation in EMC, but it will also interest faculty and students, since a good portion of the material covered can find use in the classroom or as a springboard for further research. |

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### Contents

Electromagnetic Theory | 25 |

The Physics of Interference | 55 |

Plane Wave Coupling to Cables Frederic M Tesche 1 Introduction | 67 |

Copyright | |

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### Common terms and phrases

AC power amplitude antenna aperture applications attenuation bandwidth cable capacitance capacitor cell characteristic impedance circuit CISPR common-mode components conducting conductor connected coupling crosstalk density device dielectric dipole distribution earth grounding electrode effects elec electric field Electromagnetic Compatibility electronic Electrostatic Discharge enclosure equations ESGC FDTD field strength filter frequency range function ground plane HEMP IEEE IEEE Trans inductance input installed interference length lightning limits load loop magnetic field Maxwell's equations measurement ment metal method method of moments mode modulation netic noise obtained output parameters path polarized power level probe problems propagation pulse quency radio systems resistance resonance shield shown in Figure specifications spectrum standard surface Symp techniques terminal tion transient transmission line typical vector voltage wave wave impedance waveform waveguide wire