FL-APC直流-交流变换器的故障分析与排除

IF 2.1 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

IEEE Canadian Journal of Electrical and Computer Engineering Pub Date : 2023-02-22 DOI:10.1109/ICJECE.2022.3220090

K. Suresh;E. Parimalasundar

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引用次数: 8

摘要

传统的有源中性点箝位（APC）直流-交流变换器具有高共模电压和高频（CMV-HF）降低能力，因此其电压增益有限。本文提出了一种新的五电平APC（FL-APC）直流-交流转换器，能够在单级逆变中升压。在建议的设计中，公共接地不仅降低了CMV-HF，而且提高了直流链路电压的使用。与传统的两级FL-APC直流-交流变换器相比，该设计具有更低的电压应力和更大的均匀性。在提高整体效率的同时，建议的箝位直流-交流转换器节省了三个电源开关和一个电容器。建模和实际测试已经证明了所建议的APC逆变器的整体操作、有效性和可实现性。最后对所提出的电路进行了故障清除能力测试。

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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Fault Analysis and Clearance in FL-APC DC–AC Converter

The traditional active neutral-point-clamped (APC) dc–ac converter maintains great common-mode voltage with high-frequency (CMV-HF) reduction capability, so it has limited voltage gain. This article presents a new five-level APC (FL-APC) dc–ac converter capable of voltage step-up in a single-stage inversion. In the suggested design, a common ground not only reduces the CMV-HF but also improves dc-link voltage usage. While comparing with traditional two-stage FL-APC dc–ac converter, the proposed design has lower voltage stresses and greater uniformity. While improving overall efficiency, the suggested clamped dc–ac converter saves three power switches and a capacitor. Modeling and actual tests have proven the suggested APC inverter’s overall operation, efficacy, and achievability. The proposed circuit is finally tested with fault clearance capability.

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来源期刊

IEEE Canadian Journal of Electrical and Computer Engineering

CiteScore

3.70

自引率

0.00%

发文量