A. Klein-Hessling, Kevin Felsing, R. D. De Doncker
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Active DC-Power Filters for Switched Reluctance Drives based on Dual- Active Bridge Converters
Switched reluctance machines receive increased attention by the automotive industry because of their cost efficiency. However, the independent phase excitation and the resulting current reversal demand a comparatively large dc-link capacitance to meet the requirements regarding the ripple on the dc-link voltage and current. A large dc-link capacitance increases the size, weight and cost of the machine inverter. The dc-link capacitance can be reduced by active filtering of the source current. Previously investigation showed, that a reduction of 80 % is possible. This paper proposes a galvanically isolated filter based on a dual-active bridge converter. All presented results are evaluated on a 20 kW switched reluctance generator for an automotive range-extender application.
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