Title:
Integral equation techniques in transient electromagnetics
Personal Author:
Series:
Advances in electrical and electronic engineering ; 3
Publication Information:
Southampton, U.K. : Boston : WIT, c2003
Physical Description:
252 p. : ill. ; 24 cm.
ISBN:
9781853129476
Added Author:
Available:*
Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
---|---|---|---|---|---|
Searching... | 30000010279848 | QC760 P654 2003 | Open Access Book | Book | Searching... |
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Summary
Summary
Transient electromagnetic phenomena can be treated in two ways, either using direct time domain modeling or frequency domain analysis applying the inverse Fourier transform. Both approaches are important since each has distinct advantages depending on the situation or the application.
Table of Contents
Preface | p. ix |
Chapter 1 Introduction | p. 1 |
1.1 Introduction | p. 1 |
1.2 Time domain and frequency domain methods | p. 4 |
1.3 Survey of electromagnetics analysis methods | p. 6 |
1.4 Finite Element Integral Equation Method (FEIEM) | p. 12 |
1.5 The Method of Moments | p. 14 |
Chapter 2 The frequency domain: Method of Moments | p. 21 |
2.1 Introduction | p. 21 |
2.2 The Method of Moments for EM field | p. 21 |
2.3 Frequency-time domain transformation | p. 34 |
2.4 Application examples | p. 47 |
2.5 Frequency sampling | p. 55 |
2.6 Frequency sampling using adaptive integration | p. 66 |
2.7 Application example | p. 73 |
2.8 Frequency data from time domain waveform | p. 75 |
2.9 Chapter summary | p. 80 |
Chapter 3 Time domain Finite Element Integral Equation Method | p. 85 |
3.1 Time domain Hall n integral equation | p. 85 |
3.2 Finite Element Integral Equation Method | p. 86 |
Chapter 4 Transient analysis of wire antennas | p. 91 |
4.1 Introduction | p. 91 |
4.2 Time domain approach | p. 91 |
4.3 Wire transient numerical examples | p. 121 |
Chapter 5 Transient analysis of transmission lines | p. 163 |
5.1 Time domain analysis | p. 163 |
5.2 Frequency domain analysis | p. 174 |
Chapter 6 Transient analysis of lightning electromagnetics | p. 193 |
6.1 Time domain model of the lightning channel | p. 194 |
6.2 Lightning induced overvoltage along the line | p. 199 |
6.3 Numerical results | p. 200 |
6.4 Closure | p. 203 |
Chapter 7 Transients on printed circuit boards (PCBs) | p. 205 |
7.1 Introduction | p. 205 |
7.2 Problems in PCB modelling | p. 205 |
7.3 Summary | p. 225 |
Chapter 8 Interaction of the human body with electromagnetic fields | p. 227 |
8.1 Introduction | p. 227 |
8.2 Equivalent antenna model of the human body | p. 228 |
8.3 Frequency domain modelling of the human body | p. 229 |
8.4 The boundary element solution of the Pocklington equation | p. 230 |
8.5 Time domain modelling of the human body | p. 231 |
8.6 Solution of the time domain Hall n integral equation | p. 232 |
8.7 Frequency domain examples | p. 237 |
8.8 Time domain examples | p. 244 |
Appendix Interpolation schemes for evaluation of Fourier integrals | p. 249 |