Influence of the PLL phase-angle quality on the static and dynamic performance of grid-connected systems

2017 Brazilian Power Electronics Conference (COBEP) Pub Date : 2017-11-01 DOI:10.1109/COBEP.2017.8257425

Vinícius Dário Bacon, Vinícius de Souza, Estevão Terminiello Padim, S. A. Oliveira da Silva

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引用次数: 3

Abstract

This paper presents some effects that contribute to performance degradation of grid-connected systems, when they are subjected to operate under distorted reference phase-angle signals. In many power electronics applications, grid-tied systems are developed on the synchronous reference frame (SRF) and make use of the synchronous unit vector coordinates to compute their control references. Usually, the unit vector coordinates are generated from the estimation of the utility phase-angle, which is obtained by means of phase-locked loop (PLL) schemes. Thus, static and dynamic disturbances present in the utility voltage can generate distorted phase-angle signals, and, hence, can affect the quality of the synchronous unit vector coordinates. In this paper, two single-phase SRF-based PLL schemes, which operate under distorted utility voltage conditions, as well as distinct bandwidth PI controllers, are used to generate the current control references of a single-phase shunt active power filter (S-APF). Experimental results based on digital signal controller are used to evaluate the problems that can interfere on the S-APF performance.

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锁相环相角质量对并网系统静态和动态性能的影响

本文介绍了当并网系统在参考相角失真信号下运行时，导致系统性能下降的一些影响。在许多电力电子应用中，并网系统是在同步参考系(SRF)上开发的，并利用同步单位矢量坐标来计算其控制参考。通常，单位矢量坐标是通过估计实用相位角来生成的，而实用相位角是通过锁相环(PLL)方法获得的。因此，公用电压中存在的静态和动态扰动会产生畸变的相角信号，从而影响同步单位矢量坐标的质量。本文采用两种基于单相srf的锁相环方案和不同带宽PI控制器来产生单相并联有源电力滤波器(S-APF)的电流控制参考。利用基于数字信号控制器的实验结果，对干扰S-APF性能的问题进行了评价。

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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2017 Brazilian Power Electronics Conference (COBEP)

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