4.6 Article

Accurate Active and Reactive Power Sharing Based on a Modified Droop Control Method for Islanded Microgrids

期刊

SENSORS
卷 23, 期 14, 页码 -

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MDPI
DOI: 10.3390/s23146269

关键词

modified droop control; power sharing; distributed generation unit; islanded microgrid; signal injection

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In this paper, a small AC signal (SACS)-injection-based modified droop control method is proposed for accurate active and reactive power sharing among paralleled distributed generation (DG) units in an islanded microgrid. The proposed control method adjusts the voltage amplitude of each DG unit by injecting small AC signals to form a reactive power control loop, avoiding the issue of mismatched feeder impedance in conventional droop control strategies. This strategy eliminates the need for communication links or specific knowledge of the feeder impedance, requiring only local information. Moreover, parameter design procedure and stability analysis are thoroughly considered, and simulation and experimental results validate the effectiveness of the proposed control scheme, achieving accurate active and reactive power sharing.
When multiple paralleled distributed generation (DG) units operate in an islanded microgrid, accurate power sharing of each DG unit cannot be achieved with a conventional droop control strategy due to mismatched feeder impedance. In this paper, a small AC signal (SACS)-injection-based modified droop control method is presented for accurate active and reactive power sharing among DG units. The proposed control method adjusts the voltage amplitude of each DG unit by injecting small AC signals to form a reactive power control loop. This strategy does not need communication links or to specifically obtain the physical parameter of the feeder impedance and only requires the local information. Moreover, the parameter design procedure and stability analysis are given full consideration. Finally, simulation and experimental results verify the effectiveness of the proposed control scheme, and accurate active and reactive power sharing can be achieved.

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