基于PI和模糊控制器的电流谐波控制策略

Suresh Mikkili, A. Panda
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引用次数: 15

摘要

谐波的普遍困难是电压和电流波形失真。电子设备,如电脑、电池充电器、电子镇流器、变频驱动器和开关电源会产生危险的谐波。谐波问题是工程师和建筑设计师更关心的问题,因为它们不仅仅会扭曲电压波形,还会使建筑布线过热,造成麻烦的跳闸,变压器过热,并导致随机的终端用户设备故障。因此,电能质量问题日益严重。有源电力滤波器(APF)由于其优良的谐波补偿性能而受到越来越多的关注。但是,有源滤波器的性能与不同的控制技术似乎仍然存在矛盾。本文的主要目的是分析带有模糊控制器和pi控制器的并联有源滤波器。为了进行分析,我们考虑了有功和无功电流法(id-iq)。进行了大量的模拟;分别在平衡、不平衡和非正弦条件下进行了仿真。仿真结果验证了模糊控制器对pi控制器的动态行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Id-Iq control strategy for mitigation of current harmonics with PI and fuzzy controllers
The prevalent difficulty with harmonics is voltage & current waveform distortion. The Electronic equipment like, computers, battery chargers, electronic ballasts, variable frequency drives, and switching mode power supplies generate perilous harmonics. Issue of Harmonics are of a greater concern to engineers and building designers because they do more than distort voltage waveforms, they can overheat the building wiring, cause nuisance tripping, overheat transformer units, and cause random end-user equipment failures. Thus power quality has become more and more serious with each passing day. As a result active power filter (APF) gains much more attention due to excellent harmonic compensation. But still the performance of the active filter seems to be in contradictions with different control techniques. The main objective of this paper is to analyse shunt active filter with fuzzy and pi controllers. To carry out the analysis, we consider active and reactive current method (id-iq). Extensive simulations were carried out; simulations were performed with balance, unbalanced and non sinusoidal conditions. Simulation results validate the dynamic behaviour of fuzzy logic controller over pi controller.
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