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Distributed Predefined-Time Secondary Frequency and Average Voltage Control for Islanded AC Microgrids

Sunhua Huang, Linyun Xiong, Yang Zhou, Jiayan Liu, Qiangang Jia, Penghan Li, Jie Wang, Gang Yao

2022IEEE Transactions on Power Systems44 citationsDOI

Abstract

The frequency and voltage restoration along with power sharing is imperative for the safe, reliable and stable operation of the islanded AC microgrids (MGs). In this paper, a novel distributed fractional-order predefined-time sliding mode controller (DFOPTSMC) is proposed as a secondary controller for the islanded AC MGs. The proposed DFOPTSMC can ensure that frequency and estimated average voltage (EAV) converge to reference value along with accurate power sharing within a setting predefined time. The fractional calculus algorithm is implemented to design the DFOPTSMC, which increases the degree of freedom of parameter adjustment and greatly enhances the flexibility of the DFOPTSMC. In addition, a distributed predefined-time observer is presented to achieve the EAV within a setting predefined time. The upper bound convergence time of the islanded AC MGs under the proposed DFOPTSMC is directly equal to a tunable parameter, thus overcoming the disadvantages of finite-time control and fixed-time control. The Lyapunov function is applied to present rigorous proof to analyze the stability of the islanded AC MGs under the proposed DFOPTSMC. An islanded AC MG is taken into simulation on the Matlab/Simulink 2021a platform and the experimental platform to test and verify the effectiveness and superior performance of the proposed DFOPTSMC. The results indicate that the proposed DFOPTSMC can significantly enhance the dynamic performances of the islanded AC MGs.

Topics & Concepts

Control theory (sociology)Controller (irrigation)Automatic frequency controlObserver (physics)MATLABComputer scienceAC powerVoltageLyapunov functionConvergence (economics)Control engineeringEngineeringControl (management)Nonlinear systemAgronomyArtificial intelligenceQuantum mechanicsOperating systemTelecommunicationsEconomic growthBiologyElectrical engineeringEconomicsPhysicsMicrogrid Control and OptimizationFrequency Control in Power SystemsPower System Optimization and Stability