Inverse fuzzy model control for a speed control induction motor based dSPACE implementation

Author

Amamra, S. ; Barazane, L. ; Boucherit, M.S. ; Cherifi, A.

Author_Institution

Dept. de Genie Electr., Ecole Nat. Polytech., Algiers, Algeria

fYear

2010

fDate

20-22 Sept. 2010

Firstpage

1

Lastpage

5

Abstract

In this paper, a new control strategy for a three-phase induction motor is designed and implemented. In order to obtain high performance speed response, field oriented control techniques are usually used to control the torque and flux separately as in direct current machines. The application of fuzzy logic in modeling of uncertainly dynamical systems is in progress; however fuzzy modeling is one of the major topics in the field of modeling of dynamical systems. The authors has made an effort to develop an inverse fuzzy model of the field oriented control applied to the induction motor to successfully improve the classical approach of the field oriented control. Experimental results based on the use of DS1103 DSP of DSPACE verify the robustness of the proposed control.

Keywords

angular velocity control; fuzzy control; induction motors; machine vector control; torque control; uncertain systems; DS1103 DSP; dSPACE; direct current machines; field oriented control techniques; flux control; inverse fuzzy model control; speed control induction motor; torque control; uncertainly dynamical system mdoelling; Electromagnetics; Fuzzy sets; Induction motors; Mathematical model; Rotors; Stators; Torque; Fuzzy Modeling; Induction Motor Control; Inverse fuzzy model; Vector Control; dSPACE implementation;

fLanguage

English

Publisher

ieee

Conference_Titel

Modern Electric Power Systems (MEPS), 2010 Proceedings of the International Symposium

Conference_Location

Wroclaw

Print_ISBN

978-83-921315-7-1

Type

conf

Filename

6007291