Control strategy for suppressing submodule capacitor voltage fluctuation in cascaded H-bridge solidstate transformer

2021 Annual Meeting of CSEE Study Committee of HVDC and Power Electronics (HVDC 2021) Pub Date : 1900-01-01 DOI:10.1049/icp.2021.2590

L. Liu, L. Zhao, Jiabao Zhang, D. Xi, J. Zhou, Jiabao Zhang, X. Feng, H. Chen, A. Zhang, Z. Wang, C. Tian

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Abstract

Nowadays, with the vigorous development of smart grids, cascaded H-bridge solid-state transformers (CHB-SST) used in distribution network systems have gradually become an important research hotspot. The multiport CHB-SST serves as the interfacing device to interconnect different grids, which has the functions of bidirectional, power flow control, reactive power compensation, and voltage regulation. However, the power fluctuation of the power cells should be constrained by the large capacitors which in turn worsens the system power density. The second order current in the DC-link side of the CHB-SST will cause the fluctuation of the submodule (SM) capacitor voltage, affecting the capacitance value selection. Therefore, this paper proposes a method to suppress the SM capacitor voltage fluctuation of CHB-SST through fluctuating power control strategy. The control scheme passes the second order current component of the SM capacitor to the low-voltage side of the CHB-SST to reduce the voltage fluctuation of the SM capacitor, such that the capacitance can be optimized. The proposed method is verified via the MATLAB/Simulink model, proving that the fluctuation of the SM capacitor voltage can be effectively suppressed.

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级联h桥固态变压器抑制子模块电容电压波动的控制策略

在智能电网蓬勃发展的今天，用于配电网系统的级联h桥固态变压器(CHB-SST)逐渐成为重要的研究热点。多端口CHB-SST作为连接不同电网的接口器件，具有双向、潮流控制、无功补偿、电压调节等功能。然而，大容量的电容器会限制动力电池的功率波动，从而使系统的功率密度恶化。CHB-SST直流侧的二阶电流会引起子模块(SM)电容电压的波动，影响电容值的选择。因此，本文提出了一种通过波动功率控制策略抑制CHB-SST的SM电容电压波动的方法。该控制方案将SM电容的二阶电流分量传递到CHB-SST的低压侧，以减小SM电容的电压波动，从而优化电容。通过MATLAB/Simulink模型验证了该方法的有效性，证明该方法能有效抑制SM电容电压的波动。

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 Annual Meeting of CSEE Study Committee of HVDC and Power Electronics (HVDC 2021)

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