新型交错三电平ZVS变换器

B. Lin, Yu-Bin Nian, Chien-Hung Liu
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引用次数: 0

摘要

提出了一种交错三电平DC/DC零电压开关(ZVS)变换器。在该变换器中有两个电路模块来共享负载电流和额定功率。采用交错脉宽调制(PWM)方案对两个电路模块进行控制,使输入端和输出端的纹波电流减小。每个电路模块有两个三电平DC/DC转换器,具有相同的功率开关,以降低每个MOSFET在Vin/2时的电压应力,实现负载电流共享。这样,二次侧元件的电流应力和额定功率就降低了。在二次侧采用电流双整流器部分抵消输出纹波电流。因此,磁性元件和输出滤波器电容的尺寸减小。由于mosfet在过渡区间的谐振电感和谐振电容具有谐振特性,因此可以在很宽的负载条件和输入电压下在ZVS处导通。最后给出了基于1kW样机的实验结果,验证了该变换器的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
New interleaved three-level ZVS converter
An interleaved three-level DC/DC zero voltage switching (ZVS) converter is presented in this paper. There are two circuit modules in the proposed converter to share the load current and power rating. The interleaved pulse-width modulation (PWM) scheme is adopted to control two circuit modules such that the ripple currents at the input and output sides are reduced. Each circuit module has two three-level DC/DC converters with the same power switches to reduce the voltage stress of each MOSFET at Vin/2 and achieve load current sharing. Thus, the current stress and power rating at the secondary side components are reduced. The current double rectifiers are used at the secondary side to partially cancel the output ripple current. Thus, the sizes of the magnetic components and output filter capacitance are reduced. Due to the resonant behavior by the resonant inductance and resonant capacitance at the transition interval, MOSFETs can be turned on at ZVS under a wide range of load condition and input voltage. The experimental results based on a 1kW prototype are provided to verify the effectiveness of the proposed converter.
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