A linear decoupling multiple-loops control scheme applied to a three-phase series active power filter for voltage harmonic cancellation reactive power compensation

2004 11th International Conference on Harmonics and Quality of Power (IEEE Cat. No.04EX951) Pub Date : 2004-09-12 DOI:10.1109/ICHQP.2004.1409371

H. Kanaan, K. Al-haddad

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引用次数: 4

Abstract

Voltage and current harmonics, which are injected in the utility by nonlinear loads, cause major problems that tend to deteriorate the power quality at the mains. To reduce such harmonics, active power filters (APF) are commonly employed. Where as shunt APFs are used for current-type load, series APFs are applied to voltage-type load and allow both voltage and current harmonic compensation. A new constant-frequency control scheme for a series APF is designed. The elaboration of the control law is based on a small-signal averaged model of the converter, computed in the (d,q) synchronous frame. The control scheme consists of two successive loops: the inner loop that ensure voltage harmonic compensation at the AC side is designed on the basis of the linear decoupling principle, whereas the outer loop that uses a simple PI controller ensures voltage regulation at the DC side of the filter. The control system is implemented numerically using Matlab/Simulink tool. The performance of the proposed control approach is finally discussed through the obtained simulation results.

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一种用于三相串联有源滤波器电压谐波抵消无功补偿的线性解耦多环控制方案

电压和电流谐波，是由非线性负载注入到公用事业中，造成的主要问题往往会恶化市电的电能质量。为了减少这种谐波，通常采用有源电力滤波器(APF)。其中分流型apf用于电流型负载，串联型apf用于电压型负载，并允许电压和电流谐波补偿。设计了一种新的串联有源滤波器恒频控制方案。控制律的阐述是基于转换器的小信号平均模型，在(d,q)同步帧中计算。该控制方案由两个连续的环路组成:确保交流侧电压谐波补偿的内环是根据线性解耦原理设计的，而使用简单PI控制器的外环则确保滤波器直流侧的电压调节。利用Matlab/Simulink工具对控制系统进行了数值实现。最后通过仿真结果对所提出的控制方法的性能进行了讨论。

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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2004 11th International Conference on Harmonics and Quality of Power (IEEE Cat. No.04EX951)

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