Virtual synchronous-machine control of voltage-source converters in a low-voltage microgrid

D. Hogan, F. Gonzalez-Espin, J. Hayes, G. Lightbody, L. Albiol-Tendillo, R. Foley
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引用次数: 11

Abstract

In order to facilitate the further integration of distributed renewable generation into existing power systems, enhanced control schemes for grid-tied power electronic converters are necessary to ensure non-synchronous power sources can provide power and support to the grid. The virtual-synchronous-machine concept proposes the use of control schemes to enable static generators to operate with the dynamics of rotating synchronous generators. In this paper, a control scheme is presented based on the principle of active-power synchronization to regulate the active power of a grid-tied voltage-source converter based on an emulation of the synchronous-machine swing equation. Design of a cascaded inner-loop voltage and resonant current control is presented to regulate the output voltage as specified via the outer-loop virtual-machine control scheme responsible for power regulation. The performance of this control scheme is investigated within the context of microgrid operation for the provision of active and reactive power to the system, and microgrid frequency support. Experimental validation is provided via the use of a 15 kVA three-phase VSC in a 90 kVA 400V microgrid.
低压微电网电压源变换器的虚拟同步机控制
为了促进分布式可再生能源发电进一步整合到现有的电力系统中,有必要加强并网电力电子变流器的控制方案,以确保非同步电源能够为电网提供电力和支持。虚拟同步机概念提出使用控制方案,使静态发电机能够与旋转同步发电机的动态运行。本文提出了一种基于有功功率同步原理的并网电压源变换器有功功率调节方案,该方案基于同步机摆动方程的仿真。提出了一种级联的内环电压和谐振电流控制设计,通过负责功率调节的外环虚拟机控制方案来调节输出电压。在微电网运行的背景下,研究了该控制方案的性能,为系统提供有功和无功功率,以及微电网频率支持。通过在90kva 400V微电网中使用15kva三相VSC进行实验验证。
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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