MESO-based robustness voltage sliding mode control for AC islanded microgrid

• Main Authors: Hao Pan, Qingfang Teng, Dangdang Wu
• Format: Article
• Language: English
• Published: Editorial office of Chinese Journal of Electrical Engineering 2020-06-01
• Series: Chinese Journal of Electrical Engineering
• Subjects: islanded microgrid; modified extended state observer; multi-power reaching law; system uncertainties; robustness voltage sliding mode control
• Online Access: https://ieeexplore.ieee.org/document/9133606
• ISSN: 2096-1529; 2096-1529

A new modified extended state observer (MESO)-based robustness voltage sliding mode control (SMC) strategy is proposed for an AC islanded microgrid under system uncertainties including system parameter and load variation. First, the disturbance effect on the system is regarded as a lumped uncertainty, and a state space model of the uncertain islanded microgrid system is established. Then, a modified extended state observer is designed to estimate external disturbances and internal perturbation. Finally, considering the lumped uncertainty, a sliding mode controller with a multi-power reaching law is proposed to enable the output voltage of the system to track its reference voltage rapidly and accurately, and to enhance the robustness of the system. The simulation results confirm that the proposed robustness voltage control strategy can perform satisfactory voltage control and demonstrate a strong capability to reject parameter and load variation.