Szabolcs Gyimóthy, József Pávó, Péter Kis, Tomoaki Toratani, Ryuichi Katsumi and Gábor Varga
The purpose of this paper is to propose an efficient numerical simulation tool based on FEM, by which the EMC shielding effect characteristics of power cables can be predicted in…
Abstract
Purpose
The purpose of this paper is to propose an efficient numerical simulation tool based on FEM, by which the EMC shielding effect characteristics of power cables can be predicted in the 30-1,000 MHz frequency range, as if it would be measured by the absorbing clamp method.
Design/methodology/approach
The simulation method is based on decomposition: a 2D axisymmetric RF FE model is used for describing the whole measurement set-up, while a 3D quasi-static FE model is used for the symmetry cell of the shielding layer in order to capture the effect of its fine geometric details.
Findings
Comparison with real measurements shows that the shielding characteristics can be reliably predicted this way, with some deviation in the low end of the frequency range though.
Practical implications
This simulation tool can be applied in the design and optimization of braided cable shields to be used in the automotive industry.
Originality/value
Two numerical models are coupled by the novel concept of “equivalent shielding layer”, which is obtained by homogenization.