Common-Mode Impedance of an Electric Motor and the Impact of Material and Geometry Uncertainties
Journal article, 2024
We compute the common-mode impedance of an electric motor with hairpin conductors. We use a 2D model of the cross-section of the electric motor, where the per-unit-length parameters are computed by the finite element method (FEM). These results are then used in a transmission line model aligned with the motor axis, which gives an approximate 3D model with favorable computational cost. Given this model, we study the impact on the common-mode impedance given uncertainties in the material and geometry description of the motor's cross-section. The results are useful for the understanding of uncertainties associated with manufacturing, temperature, aging, et cetera and how such uncertainties influence the EMC behavior in electric propulsion systems that are ubiquitous in the electrification of the transportation system.
transmission line equations
electric propulsion
finite element method
common-mode impedance
electric motor
Author
Simon Stenmark
Chalmers, Electrical Engineering, Signal Processing and Biomedical Engineering
Thomas Rylander
Chalmers, Electrical Engineering, Signal Processing and Biomedical Engineering
Matthys M Botha
Stellenbosch University
Jan Carlsson
Provinn AB
Proceedings of the International Symposium on Electromagnetic Compatibility, EMC Europe
23250356 (ISSN) 23250364 (eISSN)
2024 895-900Subject Categories (SSIF 2011)
Other Electrical Engineering, Electronic Engineering, Information Engineering
DOI
10.1109/EMCEurope59828.2024.10722688