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Active Damping for Dynamic Improvement of Multiple Grid-Tied Virtual Synchronous Generators

Yun Yu, Sanjay K. Chaudhary, Gibran David Agundis Tinajero, Luona Xu, Juan C. Vásquez, Josep M. Guerrero

2023IEEE Transactions on Industrial Electronics48 citationsDOIOpen Access PDF

Abstract

To eliminate low-frequency oscillations, this paper proposes an active-damping method for multiple grid-tied virtual synchronous generators (VSGs) in a power plant. Firstly, using the Lyapunov's indirect method, the damping ratio of multiple VSGs in parallel is analyzed. The average damping ratio reveals that this multi-VSG power plant can be poorly damped in a wide range of inertia and damping settings. Then, self- and mutual-damping controllers are developed to suppress self- and mutually induced low-frequency power oscillations, respectively. For the practical implementation, an adaptive tuning algorithm that enables automatic realization is proposed. Through a reassessment, a remarkable damping-ratio improvement is validated. Moreover, the inertial response improvement is validated by the frequency response analysis. Finally, simulations in Digsilent/PowerFactory and experiments are performed to demonstrate the accuracy of the analyses and the effectiveness of the proposed method.

Topics & Concepts

Computer scienceControl theory (sociology)GridControl engineeringElectrical engineeringEngineeringControl (management)MathematicsGeometryArtificial intelligenceMicrogrid Control and OptimizationIslanding Detection in Power SystemsPower Systems and Renewable Energy
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