Finite-gain-current repetitive controller for synchronverters with harmonic-sharing capabilities

J. Roldán-Pérez, M. Prodanović, A. Rodríguez-Cabero, Josep M. Guerrero, A. García-Cerrada
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引用次数: 3

Abstract

Power electronics interfaces are commonly used for renewable energy integration in microgrids and their control as synchronverters represents an alternative to typical control configurations. This control technique introduces many advan tages, but several issues need to be properly addressed including power quality and harmonic current sharing. In this paper, a method to deal with the current harmonics distribution in microgrids based on synchronverters is introduced. A Finite-Gain Repetitive Controller (FRC) is added to the control system of a current-controlled synchronverter. It is shown that the use of this alternative controller allows current harmonics to be shared between the Ditributed Generators (DGs) feeding a non-linear load. In addition, it is shown that the FRC represents a robust solution against the frequency variations typically occurring in microgrids. All the harmonic sharing improvements of the control system are tested on a prototype microgrid consisting of two 15 kVA synchronverters and a non-linear load connected via electrical distribution lines.
具有谐波共享能力的同步器的有限增益电流重复控制器
电力电子接口通常用于微电网中的可再生能源集成,其控制作为同步器代表了典型控制配置的替代方案。这种控制技术有很多优点,但也需要解决电能质量和谐波电流分担等问题。本文介绍了一种基于同步器的微电网电流谐波分布处理方法。在电流控制同步器的控制系统中加入了有限增益重复控制器(FRC)。结果表明,这种替代控制器的使用允许在馈送非线性负载的分布式发电机(dg)之间共享电流谐波。此外,研究表明,FRC代表了针对微电网中通常发生的频率变化的鲁棒解决方案。在由两个15kva同步器和一个通过配电线路连接的非线性负载组成的原型微电网上,对控制系统的所有谐波共享改进进行了测试。
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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