Type: Conference Paper
Construction of Lyapunov function based on solving linear matrix inequality and its application to assess the transient stability of a multi-machine power system in the presence of SVC
Journal: ()Year: 2010/01/01Volume: Issue: Pages: 919 - 924
Parastegari M.Khodabakhshian A.a
DOI:10.1109/IRANIANCEE.2010.5506947Language: English
Abstract
This paper presents construction of Lyapunov functions for power systems in the presence of SVC based on solving the Linear Matrix Inequality (LMI) derived from the Lyapunov stability theorem considering the AVR control system and SVC in two control strategies. The proposed Lyapunov function is constructed as a quadratic form of state variables and an integral term which satisfies the sector condition. Two-machine one-load system in the presence of SVC is considered. The critical clearing time (CCT) of power system with common mode and transient mode of SVC can be calculated by Lyapunov function. To verify the proposed Lyapunov function, the transient stability assessment is shown for comparison. ©2010 IEEE.
Author Keywords
Linear matrix inequality (LMI)Lyapunov functionPower systemStatic Var Compensation (SVC)Transient stabilityDifferential equationsElectric network topologyElectric power systemsFrequency selective fadingFuzzy controlLinear matrix inequalitiesLyapunov functionsNumber theorySystem stabilityTransientsValue engineering
Other Keywords
Differential equationsElectric network topologyElectric power systemsFrequency selective fadingFuzzy controlLinear matrix inequalitiesLyapunov functionsNumber theorySystem stabilityTransientsValue engineeringAVR control systemCommon modeControl strategiesCritical clearing timeIntegral termsLinear matrix inequality (LMI)Load systemsLyapunov stability theoremMulti machine power systemPower systemsQuadratic formSector conditionState variablesStatic VAR compensationTransient modesTransient stabilityTransient stability assessmentControl system stability