Increasing interest on the adoption of DC microgrids, particularly within the context of homes and offices, call for the development of energy conversion solutions capable of successfully meeting the requirements of each end-use. In DC microgrids, high-power DC-DC converters ascertain themselves as key elements for electric vehicle (EV) charging. Multiple DC-DC converter topologies, showing distinctive merits, are potential candidates for the development of such task. To make an enlightened decision regarding the selection of the best DC-DC converter topologies for EV charging applications, this paper develops a comparative study that intends to evaluate the performance of each converter topology, through the evaluation of parameters such as conversion efficiency, cost, and fault tolerance, among others. Conclusions taken from the comparative study are supported through simulation results.
Performance Assessment of Two Alternative DC-DC Converter Topologies for EV Charging Applications
10.09.2020
1591820 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
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