A Distributed Power Hardware-In-the-Loop Microgrid Simulator with Reduced-Voltage Components

The distributed power hardware-in-the-loop (dPHIL) simulator provides a three phase alternating-current (AC) voltage miniature power system that is an open platform for research experimentation. It encompasses, but is not limited to, power system multiple time scale control, estimation and optimization, which specifically covers real-time control, supervisory control, economic optimization and energy management. Functionalities for fault detection, system recovery, real-time intersystem communication and interfaces with non-electrical system simulators are also accommodated for. The dPHIL is a reduced-voltage and reduced-power emulation system, characterized by 60 Vac rms line voltage, with small generation sources and emulated generation sources. A distributed micro-controller/FPGA based computer system is the backbone of the dPHIL. The new and existing communication protocols from the power system field can be installed in a dPHIL simulator. The system is not designed for operational training purpose, but for the first stage testing and verifying new distributed algorithms. Power systems with islanded and grid-connected microgrids and distributed renewable energy sources are fully facilitated by the presenting dPHIL simulator.