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Sliding Mode Observer-Based Fault-Tolerant Secondary Control of Microgrids

Joseph Chang Lun Chan, Tae-Hee Lee

2020Electronics25 citationsDOIOpen Access PDF

Abstract

This paper proposes two sliding mode observer (SMO)-based fault-tolerant secondary control schemes for microgrids. The first scheme consists of a central SMO-based fault tolerant controller that uses outputs from the microgrid and estimates all states in the microgrid as well as the fault. The estimated fault is then used to reject the effect of faults on the microgrid. The second scheme is decentralised, where each distributed generator (DG) has its own SMO-based fault tolerant controller which would estimate faults affecting that DG alone, and compensate for faults in only that DG. By rejecting the effect of faults in each DG, the effect of faults on the entire microgrid can be negated. Finally, we simulate an example using both schemes, and its results verify the efficacy of the schemes for fault-tolerant secondary control of microgrids.

Topics & Concepts

MicrogridObserver (physics)Control theory (sociology)Fault toleranceFault (geology)Controller (irrigation)Scheme (mathematics)EngineeringMode (computer interface)Control engineeringComputer scienceControl (management)Reliability engineeringMathematicsAgronomyPhysicsGeologyQuantum mechanicsMathematical analysisOperating systemArtificial intelligenceSeismologyBiologyMicrogrid Control and OptimizationFrequency Control in Power SystemsSmart Grid Energy Management