This paper presents a droop-based controller for grid-tied three-phase inverters. The controller allows to regulate the inverter output power while operating grid-tied, to support the local grid voltage while operating islanded, and to seamlessly transition into this latter mode of operation. The use of the traditional droop control scheme for per-phase power control would lead to unequal frequencies among the phase voltages, which is not acceptable. Instead, the proposed controller allows independent power references tracking at each of the phases of a three-phase inverter while grid-tied and a proper transition into the islanded operation. Per-phase power control is crucial for several important services in modern smart power networks, like demand-response and distributed unbalance compensation. Simulation and experimental results considering a laboratory-scale prototype are reported and discussed to validate the proposed controller.

A Per-Phase Power Controller allowing Smooth Transitions to Islanded Operation

Abedini H.;Caldognetto T.;Mattavelli P.
2021

Abstract

This paper presents a droop-based controller for grid-tied three-phase inverters. The controller allows to regulate the inverter output power while operating grid-tied, to support the local grid voltage while operating islanded, and to seamlessly transition into this latter mode of operation. The use of the traditional droop control scheme for per-phase power control would lead to unequal frequencies among the phase voltages, which is not acceptable. Instead, the proposed controller allows independent power references tracking at each of the phases of a three-phase inverter while grid-tied and a proper transition into the islanded operation. Per-phase power control is crucial for several important services in modern smart power networks, like demand-response and distributed unbalance compensation. Simulation and experimental results considering a laboratory-scale prototype are reported and discussed to validate the proposed controller.
2021
2021 IEEE Energy Conversion Congress and Exposition, ECCE 2021 - Proceedings
13th IEEE Energy Conversion Congress and Exposition, ECCE 2021
978-1-7281-5135-9
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/3415753
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