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Commenced in January 2007 Frequency: Monthly Edition: International Publications Count: 29524


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3312
Design of Power System Stabilizer Based on Sliding Mode Control Theory for Multi- Machine Power System
Abstract:
This paper present a new method for design of power system stabilizer (PSS) based on sliding mode control (SMC) technique. The control objective is to enhance stability and improve the dynamic response of the multi-machine power system. In order to test effectiveness of the proposed scheme, simulation will be carried out to analyze the small signal stability characteristics of the system about the steady state operating condition following the change in reference mechanical torque and also parameters uncertainties. For comparison, simulation of a conventional control PSS (lead-lag compensation type) will be carried out. The main approach is focusing on the control performance which later proven to have the degree of shorter reaching time and lower spike.
Digital Object Identifier (DOI):

References:

[1] M.Bouhamida, M.A.Denai, "Robust stabilizer of electric power generator using H¥ with placement constraints", Jou. of Elec. Eng., Vol. 56, No.7-8, pp.176-182, 2005.
[2] P.Kundur, "Power system stability and control", McGraw-Hill, 1994.
[3] G.Shahgholian, M.Arezoomand, H.Mahmoodian, "Analysis and simulation of the single machine infinite bus power system stabilizer and parameters variation effects", IEEE/ICIAS, pp.167-171, Nov. 2007.
[4] Y.J.Lin, "Systematic approach for the design of a fuzzy power system stabilizer", IEEE/POWERCON, pp.747-752, Nov. 2004.
[5] V. Bandal, B. Bandyopadhyay, "Robust decentralised output feedback sliding mode control technique-based power system stabiliser (PSS) for multimachine power system", IET Con. The. and App., Vol.1, No.5, pp.1512-1522, Sep. 2007.
[6] A.G.E. Abera, B. Bandyopadhyay, "Digital redesign of sliding mode control with application to power system stabilizer", IEEE/IECON, pp.164-169, Orlando, Nov. 2008.
[7] V. Bandal, B. Bandyopadhyay, A.M. Kulkarni, "Decentralized sliding mode control technique based power system stabilizer for multimachine power system", IEEE/CCA, pp.55-60, Toronto Canada, Aug. 2005.
[8] S.I. Safie, M. MdShah, A.R. Hasimah, A. Wahab, H.M. Yusri, "Sliding mode control power system stabilizer for single machine connected to infinite bus", IEEE/PECON, pp.122-126, Dec. 2008.
[9] J. Faiz, G. Shahgholian, M.Arezoomand, "Analysis and simulation of the AVR system and parameters variation effects", IEEE/POWRENG, 450-453, April 2007.
[10] G. Cheng, L.Q. Zhan, "Simultaneous coordinated tuning of PSS and FACTS damping controllers using improved particle swarm optimization", IEEE/APPEEC, pp.1-4, March 2009.
[11] R. Tiako, K.A. Folly, "Impact of weighting coefficients on the convergence rate of the steepest descent algorithm used for the design of an optimal power system stabilizer (OPSS) ", IEEE/AUPEC, pp.1-6, Sydney, NSW, Dec. 2008.
[12] S. Zhang, F.L. Luo, "An improved simple adaptive control applied to power system stabilizer", IEEE Tran. on Pow. Elec., Vol.20, No.2, pp.369-375, Feb. 2009.
[13] C.J. Chen, T.C. Chen, H.J. Ho, C.C. Ou, "PSS design using adaptive recurrent neural network controller", IEEE/ICNC, Vol.2, pp.277-281, Tianjin, Dec. 2009.
[14] S. Panda, N.P. Padhy, "Application of genetic algorithm for PSS and FACTS based controller design", Inte. Jou. of Com. Met., Vol.5, No.4, pp.607-620, 2008.
[15] R. Pradhan, S. Panda, "Application of Genetic Algorithm based PSS for two-area AGC system in deregulated scenario", IEEE/NABIC, pp.1207- 1212, Coimbatore, Dec. 2009.
[16] S.S. Lee, S.Y. Li, J.K. Park, "Nonlinear adaptive back-stepping controller design for power system stabilizer in multi-machine power systems", IEEE/AACC, pp.2504-2509, Washington USA, June 2008.
[17] Z. Jiang, "Design of a nonlinear power system stabilizer using synergetic control theory", Elec. Pow. Sys. Res., Vol.79, No.6, pp/855- 862, June 2009.
[18] K.D. Young, V.I. Utkin, U. Ozguner, "A control engineer's guide to sliding mode control", IEEE Trans. on Con. Sys. Tec., Vol.7, No.3, pp.328-342, Aug. 2002.
[19] Y. Lee, Y.B. Shtessel, "Comparison of a feedback linearization controller and sliding mode controllers for a permanent magnet stepper motor", IEEE/SSST, pp.258-262, Baton Rouge, Mar./April 1996.
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