Power loss analysis and comparision of DC and AC side decoupling module in a H-bridge inverter

Siyuan Ma, Haoran Wang, G. Zhu, Huai Wang
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引用次数: 2

Abstract

In single-phase inverters, a considerable amount of low-frequency ripples appear on the DC side due to the instantaneous power imbalance between the DC side and AC side. Recently, active methods using film capacitors or inductors as ripple power storage components introduced at the DC or AC side are applied to ease this issue. Nevertheless, there is lack of research regarding the selection of DC side or AC side power decoupling. This paper investigates the power losses of key components in both AC side and DC side active power decoupling solutions and compares their performance from an efficiency perspective. The analytical power loss models are derived based on the operation principles of the active power decoupling methods. A comparative study is performed based on a 500 W single-phase H-bridge inverter study case with 400 V DC-link voltage level. The results provide a guideline to justify whether or not to apply active power decoupling methods or which active power decoupling method to choose for a given application.
h桥逆变器直流和交流侧去耦模块的功率损耗分析与比较
在单相逆变器中,由于直流侧和交流侧的瞬时功率不平衡,直流侧会出现相当数量的低频纹波。最近,在直流或交流侧引入薄膜电容器或电感作为纹波功率存储元件的有源方法被应用于缓解这一问题。然而,关于直流侧或交流侧功率去耦的选择,目前还缺乏研究。本文研究了交流侧和直流侧有源功率去耦方案中关键器件的功率损耗,并从效率的角度对其性能进行了比较。根据有功功率解耦方法的工作原理,推导了解析型功率损耗模型。以直流电压为400v的500w单相h桥逆变器为研究对象,进行了对比研究。结果为在给定应用中是否采用有源功率去耦方法或选择哪种有源功率去耦方法提供了指导。
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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