EMC Analysis Methods and Computational Models
by: Frederick M. Tesche, Michel Ianoz, Torbjrn Karlsson, Frederick M. Tesche, Torbjorn Karlsson
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Topics include: generalized shield, voltage formulation, aperture polarizabilities, second telegrapher, planar shield, victim circuitry, scattered voltage, lumped excitation, shielding topology, internal transmission line, lumped voltage sources, aboveground line, sin kzs, weave parameters, vertically polarized plane wave, single conductor line, incident field excitation, tangential excitation, field shielding effectiveness, geometrical mean distance, shielding efficiency, antenna mode, distributed voltage, footing impedance, dielectric jacket
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First Sentence:
Modeling of an electrical system or a physical process is a very useful tool for an analyst.
A comprehensive reference on state-of-the-art EMC modeling.
The problems of electromagnetic interference are as old as radio wave communication. Only recently, however, has progress in numerical computation permitted the creation of models that help explain the physical phenomena of EM interference and predict and mitigate their effects. These models also invite an approach to solving EMC problems that furthers an understanding of underlying principles. EMC Analysis Methods and Computational Models provides detailed descriptions of the formulation, development, analysis, and use of EMC models.
Departing from the rules-of-thumb approach for predicting electromagnetic interference, this book covers every step in the development of computational models?from the electromagnetic topology of the system to the development of coupling, penetration, and propagation models that describe the behavior of energy within the system. Supported by numerous illustrations, it
* Covers circuit theory, low-frequency coupling, discrete source radiation, transmission line propagation, EM field penetration through apertures, diffusion, and shielding.
* Discusses the approximations necessary in model development and contrasts approximate models with more rigorous models.
* Includes exercises that elaborate the theory behind the models and indicate practical applications.
* Provides computer programs based on models developed in the text.
For practicing engineers, researchers, and graduate students, this book broadens the base of knowledge about the principles of EMC and lays the foundation for future research in the field.
Table of Contents
PRELIMINARIES
Introduction to Modeling and EMC
System Decomposition for EMC Modeling
LOW-FREQUENCY CIRCUIT MODELS
Lumped-Parameter Circuit Models
HIGH-FREQUENCY AND BROADBAND COUPLING MODELS
Radiation Models for Wire Antennas
Radiation, Diffraction, and Scattering Models for Apertures
TRANSMISSION LINE MODELS
Transmission Line Theory
Field Coupling Using Transmission Line Theory
Effects of a Lossy Ground on Transmission Lines
SHIELDING MODELS
Shielded Cables
Shielding
Appendices
Index
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