Application of a new multivariable sliding mode controller for the single machine infinite bus systems

Application of a new multivariable sliding mode controller for the single machine infinite bus systems

This paper presents two multivariable nonlinear stabilizers, designed for a single machine infinite bus (SMIB) modeled by a standard ninth-order model. Multivariable feedback linearization (MFBL) and multivariable sliding mode control (MSMC) are proposed to regulate the output voltage and track the...

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Bibliographic Details
Published in:2011 2nd Power Electronics, Drive Systems and Technologies Conference pp. 211 - 216
Main Authors: Pamsari, H Khomami, Bidgoli, M Alizadeh, Rajabzadeh, M, Bathaee, S M T, Ozgoli, S
Format: Conference Proceeding
Language:English
Published: IEEE 01-02-2011
Subjects:
Mathematical model
Multivariable Feedback Linearization Control (MFBLC)
Multivariable Sliding Mode Control (MSMC)
Power system dynamics
Power system stability
Rotors
Single Machine Infinite Bus (SMIB)
Stability analysis
Voltage control
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Summary:This paper presents two multivariable nonlinear stabilizers, designed for a single machine infinite bus (SMIB) modeled by a standard ninth-order model. Multivariable feedback linearization (MFBL) and multivariable sliding mode control (MSMC) are proposed to regulate the output voltage and track the reference rotor angle at post-fault conditions. It is the first time that The MSMC method is designed and simulated to ensure both the stability of power system and voltage regulation despite of model uncertainties. An appropriate sliding surface has been found to achieve the desired aims. The proposed sliding mode controller has been simulated on the SMIB in the presence of a large disturbance, namely, a symmetrical three-phase short circuit fault at the terminal of the machine, and compared to the performance of the MFBL controller. Simulation results show that the MSMC technique has better performance to improve transient stability and voltage regulation in comparison with the MFBL controller.
ISBN:9781612844220
1612844227
DOI:10.1109/PEDSTC.2011.5742420