用模糊逻辑技术进行谐波补偿的并联有源滤波器

2018 International Conference on Current Trends towards Converging Technologies (ICCTCT) Pub Date : 2018-03-01 DOI:10.1109/ICCTCT.2018.8550962

Uma M. Chavan, A. Thorat, S. Bhosale

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引用次数: 5

摘要

由于工业化的发展，非线性负荷日益增加。由于这些非线性负载，电能质量问题也随之增加。主要的电能质量问题是电流谐波。采用并联有源滤波器(SHAF)来降低电流谐波。滤波器的响应和精度取决于提取参考电流的方法。本文提出了一种新的拓扑结构，利用模糊逻辑控制器(FLC)控制并联有源滤波器，并结合瞬时有功和无功电流理论(id和id)，在IEEE标准519的限制范围内减小电流谐波。采用模糊控制器和同步参照系技术在不同电压条件下进行了仿真。分析了SHAF三相四线(3P4W)系统的性能。仿真结果表明，模糊控制技术在平衡电压和不平衡电压条件下都具有最佳的控制性能。

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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Shunt Active Filter for Harmonic Compensation Using Fuzzy Logic Technique

Nowadays nonlinear loads are increasing day by day due to industriliasation. Power quality problems increases due to these nonlinear loads. Major power quality problem is the current harmonics. Shunt active filter (SHAF) is used to reduce the current harmonics. Response and the accuracy of filter depends on the method used for the extraction of reference current. A new topology has been proposed in this this paper to minimize the current harmonics by controlling shunt active filter using fuzzy logic controller (FLC) with instantaneous active and reactive current theory (id and idwithin the limit of IEEE Std. 519. Under different supply voltage conditions simulation is done with fuzzy logic controller and synchronous reference frame technique. To analyze the performance of SHAF three phase four wire (3P4W) system is considered. Simulation result shows that Fuzzy controller technique gives the best performance under balanced and unbalanced voltage conditions.

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2018 International Conference on Current Trends towards Converging Technologies (ICCTCT)

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