A High Power Quality Battery Charger for Light Electric Vehicle based on Improved BL Cuk Converter with Low Component Count

Abstract

In this paper, a bridgeless (BL) Cuk converter with low component count is presented for front-end power factor correction (PFC) in E-rickshaw battery charger. A flyback converter is used at the next stage to control the current through the e-rickshaw battery. This front-end BL Cuk converter uses only one switch, and one diode for bridgeless operation. The numbers of magnetic components in the converter, are reduced to half than that in a conventional two switch BL Cuk converter based E-rickshaw battery chargers. Therefore, the total component count is significantly reduced than the conventional one. This BL Cuk converter has the additional advantage of reduced switch voltage stress when compared to conventional BL converters. This BL PFC converter and the isolated converter are selected to operate in discontinuous conduction mode (DCM). An 850W prototype of this EV charger is tested at steady state and over the varying supply voltages. The improved performance of this BL Cuk converter is observed with reduced voltage stress, higher efficiency over the conventional BL converters on the account of low conduction losses.