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Fixed-time Distributed Voltage and Reactive Power Compensation of Islanded Microgrids Using Sliding-mode and Multi-agent Consensus Design

Mohamed Ghazzali, Mohamed Haloua, F. Giri

2022Journal of Modern Power Systems and Clean Energy19 citationsDOIOpen Access PDF

Abstract

This paper investigates a fixed-time distributed voltage and reactive power compensation of islanded microgrids using sliding-mode and multi-agent consensus design. A distributed sliding-mode control protocol is proposed to ensure voltage regulation and reference tracking before the desired preset fixed-time despite the unknown disturbances. Accurate reactive power sharings among distributed generators are maintained. The secondary controller is synthesized without the knowledge of any parameter of the microgrid. It is implemented using a sparse one-way communication network modeled as a directed graph. A comparative simulation study is conducted to high-light the performance of the proposed control strategy in comparison with finite-time and asymptotic control systems with load power variations.

Topics & Concepts

MicrogridControl theory (sociology)AC powerCompensation (psychology)Controller (irrigation)VoltageMode (computer interface)Computer scienceSliding mode controlControl engineeringEngineeringControl (management)Nonlinear systemQuantum mechanicsElectrical engineeringPsychologyBiologyOperating systemPsychoanalysisPhysicsAgronomyArtificial intelligenceMicrogrid Control and OptimizationSmart Grid Energy ManagementFrequency Control in Power Systems
Fixed-time Distributed Voltage and Reactive Power Compensation of Islanded Microgrids Using Sliding-mode and Multi-agent Consensus Design | Litcius