A Fuzzy Logic Controller with Tuning Output Scaling Factor for Induction Motor Control Taking Core Loss into Account
Keywords:
Core loss, field oriented induction motor, fuzzy logic controller, fuzzy logic controller with tuning output scaling factorAbstract
This paper presents a design of a fuzzy logic controller (FLC) with tuning output scaling factor for speed control of indirect field oriented induction motor (IM) taking core loss into account. The variation of output scaling factor of FLC depends on the normalized output of FLC. Firstly the speed control of IM taking core loss into account is presented by using FLC with fixed scaling factors (FLC-FSF). Secondly the speed controller based on suggested FLC with tuning output scaling factor (FLC-TOSF) is proposed. The performance of the proposed FLC-TOSF for speed control of IM are investigated and compared to those obtained using FLC-SFS at different operating conditions and variation of parameters. A comparison of simulation results shows that the convergence of actual speed to reference speed is faster by using the proposed FLC-TOSF.Downloads
References
M. Nasir Uddin, Tawfik S. Radwan and M. Azizur Rahman, “Performances of Fuzzy-Logic-Based Indirect Vector Control for Induction Motor Drive,” IEEE Ind. Applications, vol.38, No. 5, pp. 1219 - 1225, Sep./Oct. 2002.
I. Boldea and S.A. Nasar, “Unified Treatment of Core Losses and Saturation in the Orthogonal-axis Model of Electric Machines,” IEE Proc., Vol.134, Pt. B, No.6, pp.355 - 363, 1987.
Emil Levi, “Rotor Flux Oriented Control of Induction Machines Considering the Core Loss,” Electrical Machines and Power Systems, Vol.24, No.1, pp. 37-50, 1996.
M. A. Mannan, T. Murata, J. Tamura and T. Tsuchiya, “Indirect Field Oriented Control for High Performance Induction Motor Drives Using Space Vector Modulation with Consideration of Core Loss,” in Proc. PESC’03, Acapulco, Mexico, pp. 1449–1454, 15-19 June, 2003.
M. A. Mannan, T. Murata, J. Tamura and T. Tsuchiya, “Fuzzy-Logic-Based High-Performance Control of Induction Motor Taking Core Loss into Account,” in Proc.ICEM’04, Cracow, Poland, Paper No. 256, 5 - 8 September, 2004.
B N Kar; K B Mohanty; M Singh, Indirect vector control of induction motor using fuzzy logic controller, in Proc. ICEEE”11 (International conference on Environment and Electrical Engineering), pp. 1-4, 2011.
D. A. Linkens and H. O. Nyongesa, “Genetic Algorithams for Fuzzy Control Part 2: Online System Development and Application,” IEE Proc. Control Theory Application, Vol. 142, No. 3, pp. 177-185, 1995.
Aldo Balestrino, Alberto Landi and Luca Sani, “CUK Converter Global Control Via Fuzzy Logic and Scaling Factors,” IEEE Ind. Applications, vol.38, No. 2, pp. 406 - 413, Mar./Apr. 2002.
D. Driankov, H. Hellendoorn and M. Reinfrank, An Introduction to Fuzzy Control, Springer-Verlag, 1993.
Downloads
Published
How to Cite
Issue
Section
License
All papers should be submitted electronically. All submitted manuscripts must be original work that is not under submission at another journal or under consideration for publication in another form, such as a monograph or chapter of a book. Authors of submitted papers are obligated not to submit their paper for publication elsewhere until an editorial decision is rendered on their submission. Further, authors of accepted papers are prohibited from publishing the results in other publications that appear before the paper is published in the Journal unless they receive approval for doing so from the Editor-In-Chief.
IJISAE open access articles are licensed under a Creative Commons Attribution-ShareAlike 4.0 International License. This license lets the audience to give appropriate credit, provide a link to the license, and indicate if changes were made and if they remix, transform, or build upon the material, they must distribute contributions under the same license as the original.
