基于p-q理论的1相和3相并联有源滤波器的PSIM仿真与硬件实现

2020 International Conference on Emerging Trends in Communication, Control and Computing (ICONC3) Pub Date : 2020-02-01 DOI:10.1109/ICONC345789.2020.9117517

K. Singh, H. Bansal

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引用次数: 2

摘要

本文研究了电力电子变流器的控制策略，以降低谐波并控制电网中注入的有功功率。补偿过程基本建立在p-q理论之上。本文研究了一种基于p-q理论(瞬时无功理论)的单相和三相并联有源电力滤波器的硬件实现。该理论已广泛应用于三相三线制和三相四线制，但尚未应用于单相系统。本文对该方法进行了改进，使其也能适用于单相系统。为了将这一理论应用于单相系统，创建了两个额外的虚拟信号，相位差为120°。这三个信号被馈送到控制器，以降低负载电流中的THD。

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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PSIM based Simulation and Hardware Implementation of 1-Phase and 3-phase Shunt Active Filter based on p-q Theory

The research presented deals with the control strategy for the power electronics converters in order to reduce the harmonic and to govern the injected active power into the grid. The compensation process is basically established on the p-q theory. This paper exhibits the investigation and execution of hardware implementation for a 1-phase and 3-phase shunt active power filter based on p-q theory (instantaneous reactive power theory). This theory have been widely used for 3-phases 3- wires and 3-phases 4-wire system but its use has not been carried out for 1-phase system. In this paper it has been modified so that it can also be implemented for the 1-phase system as well. To use this theory for 1-phase systems, two extra dummy signals were created with a phase difference of 120°. These three signals were fed to controller to decrease the THD in load current.

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2020 International Conference on Emerging Trends in Communication, Control and Computing (ICONC3)

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