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Gain and Phase: Decentralized Stability Conditions for Power Electronics-Dominated Power Systems

Linbin Huang, Dan Wang, Xiongfei Wang, Huanhai Xin, Ping Ju, Karl Henrik Johansson, Florian Dörfler

2024IEEE Transactions on Power Systems30 citationsDOI

Abstract

This paper proposes decentralized stability conditions for multi-converter systems based on the combination of the small gain theorem and the small phase theorem. Instead of directly computing the closed-loop dynamics, e.g., eigenvalues of the state-space matrix, or using the generalized Nyquist stability criterion, the proposed stability conditions are more scalable and computationally lighter, which aim at evaluating the closed-loop system stability by comparing the individual converter dynamics with the network dynamics in a decentralized and open-loop manner. Moreover, our approach can handle heterogeneous converters' dynamics and is suitable to analyze large-scale multi-converter power systems that contain grid-following (GFL), grid-forming (GFM) converters, and synchronous generators. Compared with other decentralized stability conditions, e.g., passivity-based stability conditions, the proposed conditions are significantly less conservative and can be generally satisfied in practice across the whole frequency range.

Topics & Concepts

Power electronicsElectric power systemStability (learning theory)Power (physics)Three-phaseElectronicsControl theory (sociology)Electrical engineeringEngineeringComputer scienceVoltagePhysicsControl (management)Quantum mechanicsArtificial intelligenceMachine learningMicrogrid Control and OptimizationPower System Optimization and StabilityPower Systems and Renewable Energy