A novel high step-up interleaved DC-DC converter with ZVZCS

Hao Qian, Jiann-Fuh Chen, Ji-Syuan Lee
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Abstract

A novel high step-up interleaved DC-DC converter with ZVZCS is proposed. Based on the coupled-inductor and switching-capacitor topology, this converter is designed by combining interleave technique and active clamp together, which can realize soft switching and high output power in the same time. During steady-state modes, the leakage inductance will resonate with two switching capacitors. Under different resonant frequencies, ZVS and ZCS can be realized for certain switches and diodes, respectively. Therefore, the switching loss and reverse recovery are alleviated, which improves the efficiency of the converter. In addition, the mode boundary map for distinguishing soft-switching modes are derived and depicted. A prototype with 24 V input voltage, 400 V output voltage and 800 W output power is implemented in the laboratory to verify the performance of the proposed converter.
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基于ZVZCS的新型高升压交错DC-DC变换器
提出了一种基于ZVZCS的新型高升压交错DC-DC变换器。该变换器基于电感耦合和开关电容拓扑结构,采用交错技术和有源箝位相结合的方法设计,实现了软开关和高输出功率的同时实现。在稳态模式下,泄漏电感将与两个开关电容产生共振。在不同的谐振频率下,某些开关和二极管可以分别实现ZVS和ZCS。因此,减轻了开关损耗和反向恢复,提高了变换器的效率。此外,推导并描述了用于区分软开关模式的模式边界图。在实验室中实现了输入电压为24 V,输出电压为400 V,输出功率为800 W的样机,以验证所提出变换器的性能。
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