Design and Simulation of an Improved Soft-Switched Synchronous Buck Converter

N. Yahaya, K. M. Begam, M. Awan
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引用次数: 3

Abstract

This paper proposes an improved soft switched synchronous buck converter in a fixed load condition. The switching energy can be fully recovered during current commutation phase in the gate driver while the diode conduction losses in the low and high side switches can be substantially reduced by employing additional L and C resonant in the circuit. Using PSpice simulation, the optimization technique has been studied. From the predetermined pulse width of the generated signals, the optimized resonant inductor current is observed to generate less oscillation and hence lower the switching loss. In addition, an optimized dead time interval is inserted between high side and low side of the transistors in the synchronous buck converter to minimize their body diode conduction losses. The detailed operations of both circuits are analyzed.
一种改进型软开关同步降压变换器的设计与仿真
提出了一种改进的固定负载软开关同步降压变换器。在栅极驱动器的电流换相中,开关能量可以完全恢复,同时通过在电路中增加L和C谐振,可以大大降低低侧和高侧开关的二极管导通损耗。利用PSpice仿真,对优化技术进行了研究。从所产生信号的预定脉冲宽度来看,观察到优化后的谐振电感电流产生更少的振荡,从而降低了开关损耗。此外,在同步降压变换器的高侧和低侧晶体管之间插入了优化的死区时间间隔,以最小化其本体二极管的导通损耗。分析了两种电路的具体工作原理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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