Synchronous Reference Frame Method with PLL and Hysteresis Current Controller for Three Phase Shunt Active Power Filter to Mitigate Harmonics Caused by Nonlinear Loads

2022 14th International Conference on Computer and Automation Engineering (ICCAE) Pub Date : 2022-03-25 DOI:10.1109/ICCAE55086.2022.9762417

Tohmy Brain P. Espinosa, G. Magwili

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引用次数: 1

Abstract

Rapid growth of power electronic and smart technology used in the industry is one of the key challenges in energy sector. The most common cause of power quality issues in power system is the harmonics which generated by nonlinear loads. Harmonics produce power quality issues and harmful effect on the electrical distribution network. Thus, to improve the power system quality and reliability, it is important to suppress the harmonic distortion cause by nonlinear loads. Traditional passive filters are commonly utilized in the industry but due to its limitation in compensation and production of resonance condition, active power filters are considered the most feasible solution. This study introduces a new design control strategy for Shunt Active power filter (SAPF) using synchronous reference frame (SRF) method for reference current generation, phase locked loop (PLL) and hysteresis current controller to mitigate the harmonic in a three phase distribution system. The design was modelled and simulated using MATLAB/Simulink. The study used IEEE Standard 519-2014 in compliance with the recommended limits of harmonics distortion. A three phase electrical distribution system was modelled and simulated for both balance and unbalance load condition to determine the harmonic distortion caused by nonlinear loads. The proposed SAPF was then connected parallel to the main distribution network to mitigate the harmonics presence in the system. The simulation results validates that the SAPF using SRF with PLL and hysteresis current controller was capable to extract the harmonic currents and generate a compensating current that will be injected back to the line to mitigate the harmonic distortion for both balance and unbalance load condition. Moreover, the results demonstrate that the individual harmonic current distortion are kept within the limit and acceptable harmonic values recommended as per IEEE standard.

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基于锁相环和滞后电流控制器的三相并联有源电力滤波器同步参考框架方法缓解非线性负载引起的谐波

电力电子和智能技术的快速发展是能源行业面临的主要挑战之一。在电力系统中，引起电能质量问题的最常见原因是非线性负荷产生的谐波。谐波产生电能质量问题，对配电网产生不良影响。因此，抑制非线性负荷引起的谐波失真对提高电力系统质量和可靠性具有重要意义。传统的无源滤波器在工业上被广泛使用，但由于其在补偿和产生谐振条件方面的局限性，有源电力滤波器被认为是最可行的解决方案。本文介绍了一种新的并联有源电力滤波器的设计控制策略，采用同步参考帧法(SRF)产生参考电流，锁相环(PLL)和磁滞电流控制器来缓解三相配电系统中的谐波。利用MATLAB/Simulink对该设计进行了建模和仿真。该研究使用IEEE标准519-2014，符合建议的谐波失真限制。对三相配电系统进行了平衡和不平衡负荷的建模和仿真，以确定非线性负荷引起的谐波畸变。然后将所建议的SAPF并联到主配电网，以减轻系统中存在的谐波。仿真结果验证了采用带锁相环和磁滞电流控制器的SRF能够提取谐波电流并产生补偿电流，该补偿电流将被注入到线路中，以减轻平衡和不平衡负载条件下的谐波失真。结果表明，各谐波电流畸变均保持在IEEE标准推荐的限值和可接受谐波值范围内。

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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2022 14th International Conference on Computer and Automation Engineering (ICCAE)

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