DocumentCode
1495844
Title
High-frequency electromagnetic field coupling to long terminated lines
Author
Tkatchenko, Sergei ; Rachidi, Farhad ; Ianoz, Michel
Author_Institution
Inst. for Fundamental Electr. Eng., Otto-van-Guericke Univ., Magdeburg, Germany
Volume
43
Issue
2
fYear
2001
fDate
5/1/2001 12:00:00 AM
Firstpage
117
Lastpage
129
Abstract
We present a theory for the EMC problem of electromagnetic field coupling to a long line with arbitrary terminations. The theory is applicable for the high-frequency plane wave electromagnetic field excitations, when the transmission line approximation is no longer valid. Analytical expressions are derived for the induced current along the line, and at the two-line terminals. The coefficients of these expressions are determined using a procedure based on the exact solutions of the integral equation for two similar line configurations, but having a significantly shorter length. The method is, therefore, particularly efficient when considering the electromagnetic field coupling to very long lines. The advantage of the proposed approach is that, in contrast with transmission line approximation, it takes into account high-frequency radiation effects. Furthermore, it allows a considerable reduction in computation time and storage requirements with respect to conventional numerical solutions based on the thin-wire approximation
Keywords
electric current; electromagnetic compatibility; electromagnetic coupling; electromagnetic fields; electromagnetic induction; high-frequency effects; integral equations; transmission line theory; EMC; HF EM field coupling; computation time reduction; exact solutions; high-frequency electromagnetic field coupling; high-frequency radiation effects; induced current; integral equation; long terminated lines; numerical solutions; plane wave electromagnetic field excitations; storage requirements reduction; terminations; thin-wire approximation; transmission line approximation; two-line terminals; Electromagnetic compatibility; Electromagnetic coupling; Electromagnetic fields; Frequency; Geometry; Integral equations; Power transmission lines; Radiation effects; Transmission line theory; Wire;
fLanguage
English
Journal_Title
Electromagnetic Compatibility, IEEE Transactions on
Publisher
ieee
ISSN
0018-9375
Type
jour
DOI
10.1109/15.925531
Filename
925531
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