Generalization of loop-star approach for adaptive MoM analysis of mixed multiple geometries of metals, dielectrics, wires and thin material sheets

Author

Bogdanov, Faik ; Jobava, R. ; Bzhalava, Anna

Author_Institution

Electromagn. Consulting & Software, EMCoS Ltd., Tbilisi, Georgia

fYear

2014

fDate

6-11 April 2014

Firstpage

3425

Lastpage

3429

Abstract

In this paper, a conventional loop-star approach is generalized on mixed multiple geometries composed of metal surfaces, wires, dielectrics and thin material sheets. A hybridized MoM solver to jointly handle these geometry elements is developed and applied for analysis of specific electromagnetic (EM), electromagnetic interference (EMI), compatibility (EMC) and safety (EMS) problems. The developed approach is validated by comparison of simulated results for particular geometries with those obtained by other approaches. Application of it to practical EMC and EMS problems, such as inductive charging in electrical and hybrid vehicles (EV and HV), is demonstrated.

Keywords

dielectric materials; electromagnetic compatibility; electromagnetic interference; hybrid electric vehicles; method of moments; wires (electric); EM; EMI; EMS problems; EV; HV; adaptive MoM analysis; dielectrics; electric vehicles; electromagnetic compatibility; electromagnetic interference; electromagnetic safety; hybrid vehicles; hybridized MoM solver; inductive charging; loop-star approach; metal surfaces; method of moments; mixed multiple geometries; thin material sheets; wires; Antennas; Dielectrics; Geometry; Method of moments; Surface impedance; Wires; EM safety; EMC; EMI; inductive charging; loop-star approach; low frequency; method of moments (MoM);

fLanguage

English

Publisher

ieee

Conference_Titel

Antennas and Propagation (EuCAP), 2014 8th European Conference on

Conference_Location

The Hague

Type

conf

DOI

10.1109/EuCAP.2014.6902565

Filename

6902565