Delta-CHB STATCOM with reduced energy storage requirements based on third harmonic injection

2021 Brazilian Power Electronics Conference (COBEP) Pub Date : 2021-11-07 DOI:10.1109/COBEP53665.2021.9684088

Dayane do Carmo Mendonça, João Marcus Soares Callegari, A. F. Cupertino, H. Pereira, S. I. Seleme Junior, R. Teodorescu

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引用次数: 1

Abstract

The delta connected cascade H-Bridge converter (Delta-HUB) has emerged as an interesting topology for STATCOM applications. A drawback of this topology is the low-frequency ripple in the sub module voltage that leads to high energy storage requirements. Due to the inherent characteristic of Delta-HUB topology, the zero sequence components present in the circulating current do not flow into the grid. This work aims to explore the third harmonic circulating current injection to minimize energy storage requirements, since this method changes the shape of the capacitor voltage waveform. Initially, the expression of the sum of the capacitor voltages is analytically derived. Then, the third harmonic injection is evaluated based on 17 MVA/13.8 kV Delta-HUB case study with 24 cells per cluster. Also, the methodology was evaluated with an experimental setup based on 500 VA/220 V submodule. The results indicate a reduction in the capacitor voltage ripple of 26.64% and 62.10%, when the converter is injecting and absorbing nominal reactive power from the grid, respectively.

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Delta-CHB STATCOM基于三次谐波注入降低了储能要求

delta连接级联h桥转换器(delta - hub)已成为STATCOM应用的一种有趣的拓扑结构。这种拓扑结构的一个缺点是子模块电压中的低频纹波，导致高能量存储要求。由于Delta-HUB拓扑的固有特性，循环电流中存在的零序分量不会流入电网。由于该方法改变了电容器电压波形的形状，因此本工作旨在探索三次谐波循环电流注入以最小化储能要求。首先，解析导出了电容器电压总和的表达式。然后，以17 MVA/13.8 kV、每簇24个单元的Delta-HUB为例，对三次谐波注入进行了评估。此外，基于500va / 220v子模块的实验设置对该方法进行了评估。结果表明，当变流器分别从电网注入和吸收标称无功功率时，电容器电压纹波降低了26.64%和62.10%。

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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2021 Brazilian Power Electronics Conference (COBEP)

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