Abstract
The eddy-current losses in litz-wire windings are mostly due to the proximity effect, which can be macroscopically modelled via a complex frequency-dependent permeability. In this study, the authors propose a new closed-form expression for this complex permeability. Results are compared with approximations found in the literature in a wide-frequency range. For the sake of validation, a two-dimensional)-axisymmetric gapped transformer with litz-wire primary and secondary coils is studied.
Author supplied keywords
- approximation theory
- closed-form expression
- coils
- complex frequency-dependent permeability
- complex permeability expression
- eddy current losses
- eddy-current losses
- litz-wire primary coils
- litz-wire windings
- magnetic permeability
- proximity effect
- proximity-effect homogenisation
- secondary coils
- transformer windings
- transformers
- two-dimensional-axisymmetric gapped transformer
- wires (electric)
Cite
CITATION STYLE
Niyomsatian, K., Gyselinck, J., & Sabariego, R. V. (2020). Closed-form complex permeability expression for proximity-effect homogenisation of litz-wire windings. IET Science, Measurement and Technology, 14(3), 287–291. https://doi.org/10.1049/iet-smt.2019.0377
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