混合DSTATCOM拓扑在配电系统中的性能分析

2014 Annual International Conference on Emerging Research Areas: Magnetics, Machines and Drives (AICERA/iCMMD) Pub Date : 2014-07-24 DOI:10.1109/AICERA.2014.6908175

P. P. Shimmeer, A. Bisharathu Beevi

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引用次数: 1

摘要

锯齿形变压器是在平衡电压下消除用户侧基频和零序谐波电流的最佳装置之一。在受污染的配电电压下，用户侧的中性电流变得危险地高。提出的方案包括混合DSTATCOM拓扑与锯齿形变压器的组合，以解决电能质量问题以及中性点电流缓解。该拓扑由一个附加电容组成，该附加电容与混合型DSTATCOM的并联支路串联，以降低直流侧电容电压。串联电容器的选择应使直流侧电容器的电压降低。DSTATCOM采用了一种基于增强锁相环(EPLL)的控制算法。在该方案中，即使在污染的公用电压下，也可以提取特定相电流的有功和无功分量，以产生参考源电流。使用模糊逻辑将直流链路电压维持在恒定值。为了在动态负载扰动下改变控制器增益，设计了模糊控制器。在MATLAB环境下验证了新拓扑的有效性。通过软件实验和硬件实验验证了锯齿形变压器的性能。

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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Performance analysis of a hybrid DSTATCOM topology as an effective solution in distribution systems

Zig-Zag transformer is one of the best device employed for nullifying the fundamental and zero-sequence harmonic current on the customer side under balanced voltage. The customer side neutral current becomes dangerously high under polluted distribution voltage. The proposed scheme consist of a combination of Hybrid DSTATCOM topology with a Zig-Zag transformer for solving power quality issue as well as neutral current mitigation. The topology consist of an additional capacitor, which is connected in series with the parallel branch of the hybrid DSTATCOM so as to reduce the DC side capacitor voltage. The selection of the of the series capacitor is in such a way that voltage at the dc side capacitor is reduced. An enhanced PLL (EPLL) based control algorithm is used for DSTATCOM. In this scheme, active and reactive components of a particular phase current can be extracted for the generation of reference source current even under polluted utility voltage. DC link voltage is maintained to a constant value using Fuzzy logic. Fuzzy logic controller is designed so as to change the controller gain under dynamic load disturbances. The effectiveness of the new topology is confirmed using MATLAB environment. The Zig-Zag transformer performance is verified through software as well as hardware experiment.

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来源期刊

2014 Annual International Conference on Emerging Research Areas: Magnetics, Machines and Drives (AICERA/iCMMD)

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