EMC Analysis Methods and Computational ModelsDescribes and illustrates various modeling techniques which are applicable to the area of EMC and includes material previously available only in international reports or other hard-to-obtain references. Electromagnetic topology, lumped-parameter circuit models, the radiation process, scalar diffraction theory for apertures, transmission line modeling, and models for shielding are among the topics discussed. The accompanying disk contains four programs based on the models developed in the text and can be used to calculate diverse transmission line responses. |
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Page ix
... Equation 199 5.2.4.1 Example of ... Equations for a Two - Conductor System 6.1.5.1 Evaluation of the Line Parameters 221 223 223 223 224 225 226 226 228 229 6.2 Frequency - Domain Responses 6.2.1 Solution of the Telegrapher's CONTENTS ix.
... Equation 199 5.2.4.1 Example of ... Equations for a Two - Conductor System 6.1.5.1 Evaluation of the Line Parameters 221 223 223 223 224 225 226 226 228 229 6.2 Frequency - Domain Responses 6.2.1 Solution of the Telegrapher's CONTENTS ix.
Page x
... Telegrapher's Equations for a Two - Conductor Line 6.2.1.1 Chain Parameter Representation of a Two - Wire Line 231 232 233 6.2.1.2 Other Two - Port Representations for the Two - Wire Line 234 6.2.1.3 Applications of Two - Port ...
... Telegrapher's Equations for a Two - Conductor Line 6.2.1.1 Chain Parameter Representation of a Two - Wire Line 231 232 233 6.2.1.2 Other Two - Port Representations for the Two - Wire Line 234 6.2.1.3 Applications of Two - Port ...
Page xi
... Telegrapher's Equations in the Time Domain 272 6.3.6 Inductive and Capacitive Terminations in the Time Domain 274 ... Equation 6.3.7.4 Example : Transient State of a Circuit After Closing Two Interrupters 6.3.8 Electromagnetic Transients ...
... Telegrapher's Equations in the Time Domain 272 6.3.6 Inductive and Capacitive Terminations in the Time Domain 274 ... Equation 6.3.7.4 Example : Transient State of a Circuit After Closing Two Interrupters 6.3.8 Electromagnetic Transients ...
Page xii
... Telegrapher's Equations with an External Excitation 326 7.2.1.1 First Telegrapher's Equation 327 7.2.1.2 Second Telegrapher's Equation 329 7.2.1.3 Modification of the Telegrapher's Equations for a Finitely Conducting Wire 332 7.2.1.4 ...
... Telegrapher's Equations with an External Excitation 326 7.2.1.1 First Telegrapher's Equation 327 7.2.1.2 Second Telegrapher's Equation 329 7.2.1.3 Modification of the Telegrapher's Equations for a Finitely Conducting Wire 332 7.2.1.4 ...
Page xxi
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Contents
LOWFREQUENCY CIRCUIT MODELS | 3 |
INTRODUCTION TO MODELING AND | 4 |
References | 22 |
RADIATION MODELS FOR WIRE ANTENNAS | 113 |
Moments | 175 |
RADIATION DIFFRACTION AND SCATTERING | 183 |
Problems | 217 |
TRANSMISSION LINE THEORY | 223 |
EFFECTS OF A LOSSY GROUND ON TRANSMISSION | 395 |
References | 443 |
SHIELDED CABLES | 451 |
References | 501 |
SHIELDING | 505 |
547 | |
TABLES OF PHYSICAL CONSTANTS | 550 |
GROUNDING RESISTANCE PARAMETERS | 563 |
Common terms and phrases
admittance analysis analytical angle aperture approximate assumed behavior BLT equation braided cable calculated capacitance Chapter characteristic impedance charge components conductor consider current distribution current element current source defined determined developed dielectric discussed E-field EMI source equivalent circuit evaluated example excitation field expression field coupling Fourier transform frequency domain geometry given by Eq Green's function ground plane IEEE Trans illustrates incident field integral equation internal lightning line current located loop lossy low frequencies magnetic field matrix measured method multiconductor line numerical open-circuit penetration per-unit-length plane wave problem propagation constant radiated field radius reference conductor reflection coefficient resonances S₁ scattering shield shown in Figure solution spectrum surface telegrapher's equations termination Thévenin transfer impedance transient response transmission line transmission line model two-port network V₁ vector vertically polarized victim circuit voltage and current voltage source waveform wire Z₁ Z₂