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Dynamical Reconfigurable Master–Slave Control Architecture (DRMSCA) for Voltage Regulation in Islanded Microgrids

Wen Huang, Zhikang Shuai, Xia Shen, Yifeng Li, Z. John Shen

2021IEEE Transactions on Power Electronics19 citationsDOI

Abstract

Voltage fluctuation suppression and reactive power proportional sharing in islanded microgrids (MGs) are often difficult to maintain simultaneously. Hence, a dynamical reconfigurable master–slave control architecture is proposed herein. When a load fluctuates, the leader will be dynamically selected through specific features (such as the output power, output voltage, and power capacity); subsequently, the leader sends his information to all other distributed generators (DGs) as a unified signal in the MG. Meanwhile, the other DGs adjust their local output based on the unified reference to achieve accurate power sharing in each DG. Moreover, system voltage recovery can be realized simultaneously since each DG contains closed-loop voltage control. In addition, for the automatic selection of the leader, a dynamically selected method based on a weight-voting-based differential delay method is proposed herein; the method realizes the unicity and automatic selection of the leader during communication failure. Additionally, the stability of the proposed method is proven mathematically. The results show that the proposed method is stable for any communication period and DG quantity. Furthermore, the communication delay and communication failure are derived mathematically. The results show that the proposed method demonstrates robustness against communication delay. Finally, experimental results verify the effectiveness of the proposed method under communication delays, failures, and power failures.

Topics & Concepts

Robustness (evolution)Control theory (sociology)Computer scienceVoltagePower (physics)Voltage regulationMaster/slaveControl engineeringEngineeringControl (management)Electrical engineeringChemistryArtificial intelligenceOperating systemPhysicsBiochemistryGeneQuantum mechanicsMicrogrid Control and OptimizationSmart Grid Energy ManagementIslanding Detection in Power Systems
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