Distributed Cooperative Voltage Control of Networked Islanded Microgrid via Proportional-Integral Observer

• Published in: IEEE transactions on smart grid Vol. 15; no. 6; pp. 5981 - 5991
• Main Authors: Yan, Shen, Gu, Zhou, Park, Ju H., Xie, Xiangpeng, Sun, Wei
• Format: Journal Article
• Language: English
• Published: Piscataway IEEE 01.11.2024; The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
• Subjects: Control systems; Control theory; controller and observer co-design; Cooperative control; Delay; Delays; distributed cooperative voltage control; Distributed generation; Electrical measurement; Linear matrix inequalities; Microgrids; Networked microgrid; Observers; probabilistic communication delay; Probabilistic logic; Proportional integral; proportional-integral observer; Reference signals; Stability analysis; Voltage control; Voltage measurement
• ISSN: 1949-3053; 1949-3061
• DOI: 10.1109/TSG.2024.3407770

This article is concerned with the proportional-integral observer-based distributed cooperative voltage control issue of the networked islanded microgrid subject to probabilistic communication delay. Due to the fact that the reference signal is usually received by partial distributed generators, the system model with a constant reference signal in some existing results is difficult for control synthesis. To solve this problem, a distributed control law based on the measured voltage is designed to estimate the reference signals for all distributed generators. Then, by treating the deviation between the estimated and measured voltages as the small signal, a novel small-signal model of the networked microgrid voltage control system is established. With the utilization of the probabilistic feature of communication delay, a distribution-dependent delay handling manner is taken into account. To improve the estimation accuracy of the system state, a proportional-integral observer is adopted based on the local measured voltage. With the aid of Lyapunov theory and linear matrix inequality technology, sufficient criteria are proposed for co-designing the controller and observer gains to guarantee that the reference voltage is tracked by all distributed generators. Lastly, some simulation results are carried out to manifest the merits of the developed strategy.