An Isolated Dual-Input Half-Bridge DC-DC Boost Converter with Reduced Circulating Power between Input Ports; Convertisseur boosteur DC-DC isolé à double entrée et demi-point avec une puissance de circulation réduite entre les ports d'entrée

Abstract

This article addresses a dual-input half-bridge DC-DC converter for proper utilization of renewable energy sources (RESs). The proposed system includes two different variable sources to examine the power distribution in each module, two high-frequency transformers (HFTs), and a three-leg converter (TLC) at secondary. The TLC is connected in parallel structure to gain reduced circulating power between input modules. This results in obtaining a compact design with a minimum number of switches. Complete steady-state analysis and control strategy of the proposed system have been analyzed. Digital closed-loop control has been implemented using the field programmable gate array (FPGA) controller to minimize the complexity of the control strategy. A laboratory prototype has been developed to justify the feasible operation of the proposed converter. Extensive tests result demonstrates the enhanced performance of the proposed system in effective utilization of power from different sources to feed the telecom load. © 2022 IEEE.