Nonlinear control of single-phase shunt active power filters with theoretical analysis via singular perturbation

2018 5th International Conference on Electrical and Electronic Engineering (ICEEE) Pub Date : 2018-05-01 DOI:10.1109/ICEEE2.2018.8391303

Y. Mchaouar, A. Abouloifa, I. Lachkar, M. Fettach, F. Giri, C. Taghzaoui, A. Elallali

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引用次数: 9

Abstract

This work addresses the problem of controlling single-phase shunt active power filter (APF) in presence of nonlinear loads. The aim of control is twofold: (i) compensation of the current harmonics and the reactive power absorbed by the nonlinear load; (ii) guaranteeing a regulated DC bus voltage of the converter. The considered problem is dealt with using a singular perturbation approach that involves two loops in cascade. An inner-loop is designed, using the nonlinear proportional integral controller, to cope with the compensation issue and an outer-loop is designed to regulate the DC bus voltage of the converter. In this paper the nonlinear proportional integral controller is developed using the singular perturbation technique where two timescale motions are artificially induced in the closed-loop system. A detailed analysis of the stability control system is presented and the controller performances are illustrated by simulation in Matlab/Simulink environment.

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基于奇异摄动的单相并联有源电力滤波器非线性控制理论分析

研究了非线性负载下单相并联有源电力滤波器(APF)的控制问题。控制的目的有两个:(1)补偿电流谐波和非线性负载吸收的无功功率;(ii)保证转换器的直流母线电压稳定。所考虑的问题是用一种奇异摄动方法处理的，该方法涉及两个级联回路。采用非线性比例积分控制器设计了一个内环来处理补偿问题，设计了一个外环来调节变换器的直流母线电压。本文采用奇异摄动技术，在闭环系统中人工诱导两个时间尺度运动，建立了非线性比例积分控制器。对稳定控制系统进行了详细的分析，并在Matlab/Simulink环境下对控制器的性能进行了仿真。

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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2018 5th International Conference on Electrical and Electronic Engineering (ICEEE)

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