SHF/EHF field-to-wire coupling model

Author

Griffin, Patrick ; Capraro, Gerard ; McMahon, Andrew ; Adams, Arlon ; Perini, Jose ; Pesta, Anthony

Author_Institution

Kaman Sci. Corp., Utica, NY, USA

fYear

1988

fDate

2-4 Aug. 1988

Firstpage

50

Lastpage

54

Abstract

Method-of-moments calculations have provided a database for deriving an empirical algorithm to characterize SHF/EHF coupling. The data show that the maximum field-to-wire current coupled into a port saturates as a function of height above the ground plane and that the saturation level can be simply characterized. The most important parameter in determining the saturation current is the near-port termination impedance. A computationally efficient algorithm is derived and can be incorporated into electromagnetic-compatibility (EMC) surveying/culling tools such as the IEMCAP code. The algorithm has been verified by coupled current measurements in an anechoic chamber. Cable-grounding conditions, port-termination resistance, and cable transmission loss are treated as input parameters in the algorithm.<>

Keywords

electric current measurement; electromagnetic compatibility; wires (electric); EMC; SHF/EHF field-to-wire coupling model; anechoic chamber; cable transmission loss; cable-grounding conditions; coupled current measurements; database; electromagnetic-compatibility; empirical algorithm; field-to-wire current; method of moments calculation; near-port termination impedance; saturation level; Cable shielding; Electromagnetic compatibility; Electromagnetic coupling; Electromagnetic modeling; Frequency; Moment methods; Power cables; Senior members; Transmission line theory; Wire;

fLanguage

English

Publisher

ieee

Conference_Titel

Electromagnetic Compatibility, 1988. Symposium Record., IEEE 1988 International Symposium on

Conference_Location

Seattle, WA, USA

Type

conf

DOI

10.1109/ISEMC.1988.14085

Filename

14085