Title :
Ultra Step-Up DC–DC Converter With Reduced Switch Stress
Author :
Fardoun, Abbas A. ; Ismail, Esam H.
Author_Institution :
Dept. of Electr. Eng., United Arab Emirates Univ., Al Ain, United Arab Emirates
Abstract :
In this paper, a new single-switch nonisolated dc-dc converter with high voltage transfer gain and reduced semiconductor voltage stress is proposed. The proposed topology utilizes a hybrid switched-capacitor technique for providing a high voltage gain without an extreme switch duty cycle and yet enabling the use of a lower voltage and RDS-ON MOSFET switch so as to reduce cost, switch conduction, and turn-on losses. In addition, the low voltage stress across the diodes allows the use of Schottky rectifiers for alleviating the reverse-recovery current problem, leading to a further reduction in the switching, and conduction losses. The principle of operation and a comparison with other high step-up topologies are presented. Two extensions of the proposed converter are also introduced and discussed. Simulation and experimental results are also presented to demonstrate the effectiveness of the proposed scheme.
Keywords :
DC-DC power convertors; field effect transistor switches; rectifiers; switched capacitor networks; switching convertors; MOSFET switch; Schottky rectifiers; conduction losses; hybrid switched-capacitor technique; reverse-recovery current; semiconductor voltage stress; single-switch nonisolated dc-dc converter; step-up DC-DC converter; switch duty cycle; switch stress; voltage transfer gain; Capacitors; Costs; DC-DC power converters; Low voltage; MOSFET circuits; Semiconductor diodes; Stress; Switches; Switching converters; Topology; DC–DC power conversion; high step-up converter; pulsewidth modulated; switched-mode power supplies;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2010.2058833
