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首页> 外文会议>IEEE Applied Power Electronics Conference and Exposition >A 13.8 kV, 100 kVA Multi-functional MMC-Based Asynchronous Microgrid Power Conditioning System with 10 kV SiC MOSFETs
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A 13.8 kV, 100 kVA Multi-functional MMC-Based Asynchronous Microgrid Power Conditioning System with 10 kV SiC MOSFETs

机译:基于13.8 kV,100 kVA多功能MMC的异步微电网功率调节系统,具有10 kV SiC MOSFET

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摘要

Medium voltage (MV) asynchronous microgrids have numerous unique benefits over regular synchronous MV ac microgrids. This paper focuses on a MV transformer less asynchronous microgrids power conditioning system (PCS) using 10 kV SiC MOSFETs. The benefits of a 10 kV SiC MOSFET based PCS include simplified topology, higher control bandwidth, and hence more advanced control functions, although it is still challenging to apply 10 kV SiC MOSFETs with their associated much faster switching speed in MV systems. A modular design approach is adopted in the design and implementation of the PCS as well as its controller. The sophisticated grid functions of the asynchronous microgrid PCS are supported by a hierarchical modular control system. A 100 kVA back-to-back transformer less PCS for a 13.8 kV MV grid is developed and tested at rated voltage and power.
机译:中电压(MV)异步微电网在常规同步MV AC微电网上具有许多独特的益处。 本文侧重于使用10 kV SiC MOSFET的MV变压器较少的异步微电网电源调节系统(PC)。 基于10 kV SiC MOSFET的PC的好处包括简化的拓扑,更高的控制带宽,因此更先进的控制功能,尽管它仍然具有挑战性,在MV系统中使用它们相关的具有相关的更快速的开关速度施加10 kV SIC MOSFET。 PC的设计和实施采用模块化设计方法以及其控制器。 异步微电网的复杂网格函数由分层模块化控制系统支持。 为13.8kV MV网格的100 kVA背靠背变压器较少,并在额定电压和功率下进行测试。

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