基于PI和模糊控制器的Id-Iq控制策略的SHAF电流谐波消除的硬件实现

Suresh Mikkili, A. Panda
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摘要

本文的主要目的是开发PI和模糊控制器来分析在平衡、不平衡和平衡非正弦条件下提取并联有源滤波器参考电流的瞬时真实有功和无功电流(id-iq)控制策略的性能。当电源电压为平衡电压和正弦电压时,所有控制策略都收敛于相同的补偿特性;然而,电源电压是扭曲和/或不平衡的正弦,这些控制策略导致不同程度的谐波补偿。当源电压不理想时,p-q控制策略无法产生适当的解决方案。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。3-ph 4线并联有源滤波器(SHAF)系统也在实时数字模拟器(RTDS硬件)上实现,以进一步验证其有效性。详细的仿真和RT - DS硬件结果。
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Simulation and RTDS Hardware implementation of SHAF for current harmonics cancellation using Id-Iq control strategy with PI and fuzzy controllers
The main objective of this paper is to develop PI and Fuzzy controllers to analyse the performance of instantaneous real active and reactive current (id-iq) control strategy for extracting reference currents of shunt active filters under balanced, unbalanced and balanced non-sinusoidal conditions. When the supply voltages are balanced and sinusoidal, the all control strategies are converge to the same compensation characteristics; However, the supply voltages are distorted and/or un-balanced sinusoidal, these control strategies result in different degrees of compensation in harmonics. The p-q control strategy unable to yield an adequate solution when source voltages are not ideal. 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. The 3-ph 4-wire shunt active filter (SHAF) system is also implemented on a Real Time Digital Simulator (RTDS Hardware) to further verify its effectiveness. The detailed simulation and RT DS Hardware results are included.
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