具有直接功率传输功能的多电平电流馈电 DAB 转换器

IF 5 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Sajjad Goudarzitaemeh;Lucas Melanson;Justin Woelfle;Majid Pahlevani
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引用次数: 0

摘要

本文为光伏应用中具有直接功率传输能力的多电平双主动桥(DAB)DC-DC 转换器提出了一种新型调制方案。所提出的调制方案能够塑造高频电流波形,从而在较宽的光伏电压范围内实现较低的电流峰值/均方根值。此外,多电平结构允许使用通道电阻明显较小的低压器件。功率电路拓扑基于电流馈电半桥(CF-HB)转换器,带有耦合电感器,有利于直接功率传输,从而大大降低了传导损耗。总之,所提出的拓扑结构通过使用新颖的调制方案、多电平结构、直接功率传输和固有的软开关,从多方面解决了传导和开关损耗问题。详细的数学分析和大量的实验结果证明了所提出的转换器的卓越性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Multilevel Current-Fed DAB Converter With Direct Power Transfer
This paper proposes a novel modulation scheme for a multilevel Dual Active Bridge (DAB) DC–DC converter with direct power transfer capability in PV applications. The proposed modulation scheme has the ability to shape the high-frequency current waveforms, leading to lower peak/RMS values of current over a wide range of PV voltages. In addition, the multi-level structure allows for the use of low-voltage devices with significantly smaller channel resistance. The power circuit topology is based on a current-fed half-bridge (CF-HB) converter, with a coupled inductor, which facilitates the direct power transfer, resulting in significantly lower conduction losses. In summary, the proposed topology tackles both the conduction and switching losses through a multi-faceted approach by using the novel modulation scheme, the multi-level structure, the direct power transfer, and the inherent soft-switching. Detailed mathematical analysis and extensive experimental results demonstrate the superior performance of the proposed converter.
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CiteScore
8.60
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