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This paper presents a simulation methodology for efficient investigation of human exposure to low-frequency (1 Hz to 10 MHz) electromagnetic fields generated by automotive electrical systems such as wireless power transfer (WPT) systems. The main stages of the modeling process are discussed. A simulation approach based on the combination of computationally efficient methods such as surface integral...
In this work, numerical results are presented concerning the EMC solution of the Maxwell equations discretized by the Discontinuous Galerkin Time Domain method. Validation of the method is performed by comparisons with measurements for a UWB monopole antenna printed on a dielectric substrate. Investigation of the radiated magnetic field from the battery housing of high power six-cell battery is performed.
Model for the stochastic multi-cable bundle is developed. It is based on lumped circuit model of the multi transmission lines with randomly formed cross-sections along cable system. Interaction of cables with surrounding environment is simulated using hybridization of transmission line theory with the Method of Moments. Validation of developed approach is performed against measurements.
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