基于ieee519的背靠背电网变换器的控制与实现

Sean Cunningham, A. Nasiri
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引用次数: 3

摘要

这项工作提出了一个背靠背的转换器拓扑结构,能够连接两个不同电压和频率的电力系统进行电力交换。通过利用间接交流到交流转换,在电力系统之间实现了解耦,其中一个三相,两个电平电压源转换器执行交流到直流转换,保持所需的直流母线电压水平在单位功率因数,而另一个转换器在所有四个象限中运行,为其他电力系统提供和/或消耗有功和/或无功功率。原型实现位于威斯康星大学密尔沃基分校的USR建筑微电网测试平台设施中,重点是设计接近IEEE 519推荐的谐波控制要求,而不需要功率滤波交流电容器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Control and implementation of back to back grid converters utilizing IEEE 519
This work presents a back to back converter topology with the ability to connect two power systems of different voltages and frequencies for the exchange of power. By utilizing indirect AC to AC conversion decoupling is achieved between the power systems with one of three phase, two level voltage source converters performing the AC to DC conversion that maintains the required DC bus voltage level at unity power factor while the other converter operates in all four quadrants supplying and or consuming active and or reactive power with the other power system. The prototype implementation resides at University of Wisconsin Milwaukee's USR building microgrid test bed facility with an emphasis in the design to approach the requirements for harmonic control as recommended by IEEE 519 without power filtering AC capacitors.
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