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Improved Distributed Prescribed Finite-Time Secondary Control of Inverter-Based Microgrids: Design and Real-Time Implementation

Neda Sarrafan, Mohammad-Amin Rostami, Jafar Zarei, Roozbeh Razavi‐Far, Mehrdad Saif, Tomislav Dragičević

2020IEEE Transactions on Industrial Electronics44 citationsDOI

Abstract

The aim of this study is to develop a novel distributed robust prescribed finite-time secondary control for both frequency and voltage restoration along with accurate active power sharing in islanded microgrids (MGs). The prescribed finite-time convergence property irrespective of the values of initial conditions helps to design an offline settling time that leads to power loss reduction. Moreover, thanks to the use of a piecewise-function based approach the upper bound of convergence time is reduced. The fixed-time stability of the proposed scheme is rigorously confirmed by applying the Lyapunov theory, which results in a set of tuning rules. The main challenge is to establish the stability conditions through asymmetrical connections under a directed graph. Finally, the architecture of the experimental setup is constructed for an inverter-based microgrid consisting of six distributed generators (DGs). The OPAL-RT real-time simulator is exploited to verify the applicability of the proposed distributed fixed-time controller.

Topics & Concepts

Settling timeMicrogridControl theory (sociology)PiecewiseConvergence (economics)Computer scienceController (irrigation)Upper and lower boundsStability (learning theory)InverterReduction (mathematics)EngineeringControl engineeringVoltageMathematicsControl (management)Step responseEconomic growthMathematical analysisGeometryAgronomyEconomicsArtificial intelligenceMachine learningElectrical engineeringBiologyMicrogrid Control and OptimizationFrequency Control in Power SystemsOptimal Power Flow Distribution
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