Adaptive PI Control Strategy Based on Fuzzy Logic for an Active Harmonic Compensator

2020 9th International Conference on Renewable Energy Research and Application (ICRERA) Pub Date : 2020-09-27 DOI:10.1109/ICRERA49962.2020.9242734

Ahmed Bouhouta, S. Moulahoum, N. Kabache, I. Colak

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Abstract

This paper presents an improved version of direct power control (DPC) applied to the shunt active power filtering system (SAPF). By using the adaptive proportional-integral (PI) control strategy in the dc-link voltage, the improvement is realized by tuning online with a fuzzy logic approach. The main goals are to reach a minimum of dc voltage error during the transient state and assuring a reactive and harmonic compensation in the power grid. Many topologies of DPC strategy are studied in the literature exploiting a simple PI controller. However, due to its fixed parameters, this conventional controller does not work satisfactorily under variable load conditions. This work is deal to investigate the better improvement of dynamic performances and maintain a high power quality of the filtering system. In order to verify the effectiveness of the adaptive PI strategy, computer simulation has carried out under Matlab/Simulink software. The proposed control strategy proves that the system could manage the harmonic compensation and reactive power transfer in an adjustable and dynamic manner.

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有源谐波补偿器的模糊自适应PI控制策略

本文提出了一种应用于并联有源滤波系统的改进型直接功率控制(DPC)。在直流电压中采用自适应比例积分(PI)控制策略，通过模糊逻辑在线整定实现改进。其主要目标是使暂态直流电压误差最小，保证电网无功补偿和谐波补偿。利用一个简单的PI控制器研究了DPC策略的许多拓扑结构。然而，由于其参数固定，这种传统的控制器在变负载条件下不能令人满意地工作。为了更好地提高滤波系统的动态性能和保持高功率质量，本文进行了研究。为了验证自适应PI策略的有效性，在Matlab/Simulink软件下进行了计算机仿真。所提出的控制策略证明了系统能够以可调和动态的方式管理谐波补偿和无功传输。

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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2020 9th International Conference on Renewable Energy Research and Application (ICRERA)

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