Design of a 2.5-kW 400/12-V High-Efficiency DC/DC Converter Using a Novel Synchronous Rectification Control for Electric Vehicles

Author

Chen Duan ; Hua Bai ; Wei Guo ; Zhong Nie

Author_Institution

Dept. of Electr. & Comput. Eng., Kettering Univ., Flint, MI, USA

Volume

1

Issue

1

fYear

2015

fDate

Jun-15

Firstpage

106

Lastpage

114

Abstract

This paper proposes the design of a 2.5-kW 400/12 V high-efficiency isolated dc/dc converter for electric vehicles. The designed system accommodates the wide-range input voltage (450 V-220 VDC) and output voltage (16 V-6 VDC). An LLC halfbridge topology is adopted as the primary side of the dc/dc converter. For the secondary side, a novel synchronous rectification control (SRC) strategy is developed to switch metal oxide semiconductor field effect transistors (MOSFETs) through accurately tracking the target switching moments. Experimental results were carried out to charge the on-board 12-V battery and validate the proposed control algorithm. The maximum system efficiency is 93.2%. System power loss is also itemized.

Keywords

DC-DC power convertors; MOSFET; battery powered vehicles; bridge circuits; network topology; rectification; secondary cells; DC-DC converter; LLC half bridge topology; MOSFET; SRC strategy; electric vehicle; metal oxide semiconductor field effect transistor; on-board battery charging; power 2.5 kW; synchronous rectification control; target switching moment tracking; Batteries; Bridge circuits; Electric vehicles; MOSFET; Switches; Zero voltage switching; DC/DC Converter; DC/DC converter; Electric Vehicle; LLC Resonant; LLC resonant; MOSFET; Synchronous Rectifier; electric vehicle; synchronous rectifier;

fLanguage

English

Journal_Title

Transportation Electrification, IEEE Transactions on

Publisher

ieee

Type

jour

DOI

10.1109/TTE.2015.2426506

Filename

7102753