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An all-SiC 0.25 MHz 5 kW multiphase dc/dc bidirectional boost converter, operating with a 105°C inlet coolant temperature is described that serves as a charger for the intermediate high-voltage energy storage device (e.g. ultracapacitor) in a plug-in hybrid-electric vehicle (PHEV). The primary focus of this study is to report the high-temperature efficiency of the normally on SiC VJFET and SiC Schottky-based...
A multiphase all-SiC dc/dc bidirectional converter for plug-in-hybrid electric vehicles (PHEV) is described in this paper that serves as a regulated charger for the intermediate high-voltage energy storage device (e.g. ultracapacitor) in the motoring mode and allows recharging of the batteries during regenerative mode. The primary focus of this paper is to describe the design of the converter and...
We describe an all-SiC 0.25 MHz 5 kW multiphase dc/dc bidirectional boost converter that serves as a charger for the intermediate high-voltage energy storage device (e.g. ultracapacitor) in a plug-in-hybrid vehicle (PHEV). The primary focus of this paper is to report the high-temperature efficiency of the SiC VJFET and SiC Schottky based robust converter and identify the key loss components.
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