Power-Hardware-In-The-Loop Simulation Of A D-Statcom Equipped Mv Network Interfaced To An Actual Pv Inverter
2013 4TH IEEE/PES INNOVATIVE SMART GRID TECHNOLOGIES EUROPE (ISGT EUROPE)(2013)
摘要
Power-Hardware-in-the-Loop (PHIL) simulation is a promising method for studying the interaction of various complex components in current and future electricity grids. This paper firstly examines the applicability of PHIL simulation to Fault-Ride-Through tests. A test setup is implemented with a hardware PV inverter as the Hardware Under Test (HUT). Furthermore, the PHIL method is employed for testing and validating the capability of a D-STATCOM to compensate voltage dips. An average model of a D-STATCOM is developed in the RTDS(R) and its influence on the operation of the hardware PV inverter is investigated.
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关键词
invertors,photovoltaic power systems,power grids,static VAr compensators,D-STATCOM-equipped MV network,HUT,PHIL method,PHIL simulation,PV inverter,RTDS,complex component,electricity grids,fault-ride-through tests,hardware PV inverter,hardware under test,power-hardware-in-the-loop simulation,voltage dip compensation,
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