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Fuzzy Logic Controller for Improvement of Dynamic Performance of Induction Motor Drives

K. Vaisakh*, K. Naga Sujatha**
* Associate Professor, Department of Electrical Engineering, AU College of Engineering, Andhra University, India.
**Professor, Department of Electrical Engineering, AU College of Engineering, Andhra University, India.
Periodicity:July - September'2009
DOI : https://doi.org/10.26634/jee.3.1.997

Abstract

This paper presents a speed control scheme using a new and simple structure of fuzzy logic controller (FLC) for a closed-loop, variable speed induction motor (IM) drive. The drive makes use of thyristor on the secondary side as phase-controlled ac switches operating at slip frequency. Such phase-controlled thyristor allows the torque of the machine to be varied from zero to values bounded by the normal torque/speed characteristic of the basic motor. The various functional blocks of the system which govern the system behavior for small variations about the operating pointing point are derived, and the transient responses are presented. The proposed FLC is developed to have less computational burden, which improves the dynamic behavior of the induction motor drive.

Keywords

 Fuzzy logic controller, induction motor drive, SCR controllers.

How to Cite this Article?

 K. Naga Sujatha and K. Vaisakh (2009). Fuzzy Logic Controller for Improvement of Dynamic Performance of Induction Motor Drives. i-manager’s Journal on Electrical Engineering, 3(1), Jul-Sep 2009, Print ISSN 0973-8835, E-ISSN 2230-7176, pp. 20-26. https://doi.org/10.26634/jee.3.1.997

References
[1]. R.P. Basu, "Variable speed induction motor using thyristors in the secondary circuit", IEEE Trans. PAS-Vol. 90, pp. 509-514, March/ April 1971.
[2]. M. Ramamoorthy and M. Arunachalam, "A solid -state controller for slip ring induction motors", presented at the IEEE Ind. Appl. Soc. Annual Meeting, Los Angeles, California , Oct. 2-6, 1977.
[3]. M. Ramamoorthy and M. Arunachalam, "Dynamic Performance of a Closed Loop Induction Motor Speed Control System with Phase-Controlled SCR's in the Rotor", IEEE Trans. on Industry Applications, Vol. IA-15, No. 5, Sept./Oct. 1979, pp. 489-493.
[4]. Y. Hsu and W. Chan, "Optimal Variable-structure controller for DC motor speed control", IEEE Proc., Vol. 131, Pt. D,pp. 233-237,1984.
[5]. B. S. Zhang, and J .M. Edmunds, "On fuzzy logic controllers," IEEE International Conference on Control, pp.961-965, Edinburg, U. K., 1991.
[6]. H.Ying, W.Siler, and J.J.Buckley, “Fuzzy Control Theory: A nonlinear case,” Automatica, Vol.26,No.3, pp. 513-520, 1990.
[7]. D.Dirankov, H.Hellendorn, and M.Reinfrank, An introduction to fuzzy control. New York : Springer –Verlag,1993.
[8]. M.Maeda and S.Murakami, A self-tuning fuzzy controller,” Fuzzy sets Syst., Vol.51, pp. 29-40,1992
[9]. T.J.Procyk and E.H.Mamdani, “ A linguistic selforganizing process controller,” Automatica, Vol. 15, No. 1,pp. 53-65, 1979.
[10.] Rainer Storn, Kenneth Price, “Differential evolution – A simple and efficient adaptive scheme for global optimization over continuous spaces” TR-95-012, March 1995.
[11]. Dervis Karaboga, Selcuk Okdem, “A Simple and Global Optimization Algorithm For Engineering Problems: Differential Evolution Algorithm”, Turk J Elec. Engin., Vol. 12, No. 1, 2004, pp. 53-60.
[12]. D. Borojevic, L. Garces and F. Lee, "Performance comparison of variable structure controls with PI control for DC motor speed regulator", IEEE Ind. Applicat. Conference, pp. 395-405, 1984.
[13]. Zhao Jin, Bose, B.K., “Evaluation of membership functions for fuzzy logic controlled induction motor drive”, th IECON 02 [Industrial Electronics Society, IEEE-2002 28 Annual Conference , 1 , pp.229 –234, (2002).
[14]. Ahmed S.A. Farag, "State-Space Approach t o the Analysis of DC Machines Controlled by SCRs", Presented at the Control of Power Systems Conference IEEE/COPS, March 10-12, 1976, Oklahoma City, Oklahoma, IEEE Proceeding Publication- on No.76CH 1057-5R, REG. 5, pp.157-163
[15]. Mohan N., Electric Drives: An Integrative Approach, MNPERE, Minnesota (2003).
[16]. Mohan N., Advanced Electric Drives: Analysis, Control and Modeling using Simulink®, MNPERE, Minnesota (200
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