An Enhanced Voltage Control Method for Multilevel-Converter-Based Electric Spring at the Distribution Voltage Level

2023 IEEE Applied Power Electronics Conference and Exposition (APEC) Pub Date : 2023-03-19 DOI:10.1109/APEC43580.2023.10131614

H. S. Lam, Huawei Yuan, N. Beniwal, J. Pou, S. Y. Ron Hui

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Abstract

Static compensators (Statcoms) are traditionally used to control the grid voltage and such approach provides excellent performance if the transmission lines have high reactance to resistance (X/R) ratio. Recently, medium-voltage electric springs (ESs) are proposed to regulate the grid voltage by injecting reactive power into the distribution network that has a much lower X/R ratio (about 1) than that of the transmission network. The reactive-power-based voltage compensation performance would be adversely affected by this low X/R ratio. To address this issue, this paper presents an improved droop voltage control method for a multilevel converter (MLC)-based ES connected at the distribution voltage level. The control method would provide both active and reactive power compensation according to the grid voltage. It does not require any communication and huge modification of the original ES control loop. Therefore, it can be installed in all electric springs used at distributed level to enhance both the dynamic and steady-state compensation performance in the ac grid.

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基于多电平变换器的配电电压级电弹簧电压控制的改进方法

静态补偿器(Statcoms)传统上用于控制电网电压，这种方法在输电线路具有高抗阻(X/R)比的情况下提供了出色的性能。近年来，中压电弹簧(ESs)被提出，通过向配电网注入无功功率来调节电网电压，其X/R比(约为1)远低于输电网。这种低X/R比将对基于无功的电压补偿性能产生不利影响。为了解决这一问题，本文提出了一种基于多电平变换器(MLC)的配电电压级ES的改进下垂电压控制方法。该控制方法根据电网电压进行有功和无功补偿。它不需要任何通信，也不需要对原始ES控制回路进行大量修改。因此，它可以安装在所有分布式电弹簧中，以提高交流电网的动态和稳态补偿性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 IEEE Applied Power Electronics Conference and Exposition (APEC)

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