Novel source current detection control of active power filter with selective harmonic compensation

Qian Fang, Xueqin Wu, Jinjun Liu
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引用次数: 2

Abstract

In industrial application, the parallel active power filter (PAPF) is used most widely to eliminate the current distortion. It can be classified into two types according different current detection method. One is the load current detection type, and the other is the source current detection type. Load current detection method is an open-loop system, so both time delay and parameter deviation of the PAPF (especially in harmonic detector of PAPF) can cause incorrect compensation and unwanted remaining harmonics in the source current. Source current detection is a closed-loop system, while in traditional source current detection control method, system stability and performance of harmonic elimination is incompatible. In this paper a novel source current detection control of PAPF with selective harmonic compensation is proposed. Implementation of the proposed method in either synchronous or stationary frame is given in this paper. This method can ensure both the excellent performance of PAPF and the system stability. Moreover, this control method is insensitive to time delay and parameter deviation of the PAPF. Finally, simulation and experiment results are presented to demonstrate the conclusions.
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选择性谐波补偿有源电力滤波器的新型源电流检测控制
在工业应用中,为了消除电流畸变,并联有源电力滤波器(PAPF)的应用最为广泛。根据电流检测方法的不同,可分为两种类型。一种是负载电流检测型,另一种是源电流检测型。负载电流检测方法是一个开环系统,因此PAPF(特别是PAPF的谐波检测器)的时间延迟和参数偏差都可能导致不正确的补偿和源电流中多余的剩余谐波。源电流检测是一个闭环系统,而在传统的源电流检测控制方法中,系统的稳定性与谐波消除性能是不相容的。本文提出了一种具有选择性谐波补偿的PAPF源电流检测控制方法。本文给出了该方法在同步或静止框架下的实现。该方法既保证了PAPF的优良性能,又保证了系统的稳定性。此外,该控制方法对PAPF的时滞和参数偏差不敏感。最后,通过仿真和实验验证了本文的结论。
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