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Control of the Asynchronous Machine with Orientation on Stator Flux

Mohamed Benmbarek(1*), F. Benzergua(2), A. Chaker(3)

(1) University of Sciences and Technology Mohamed Boudiaf, Algeria
(2) University Science and technologies USTO, Oran, Algeria
(3) Department of Electrical Enginering of ENPO, Oran, Algeria
(*) Corresponding author


DOI: https://doi.org/10.15866/ireaco.v11i5.15101

Abstract


In this work, authors have studied and analyzed the speed and the torque control performance of asynchronous machine with stator flux orientation. This paper presents, in particular, a new control scheme whose principle is to control the asynchronous machine in a similar manner to a direct current machine. This is translated by a decoupling between electromagnetic torque and flux. The outputs of the regulators of the rotor currents directly select the components of the appropriate voltage vector through a vector modulation. The results obtained by numerical simulation show the efficiency proposed control with respect to the variations of its parameters and load torque. Speed and flux are widely presented and discussed in starting and load regimes.
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Keywords


Double Fed Induction machine (DFIM); Vector Control; Orientation of the Stator Flux; Regulators; Decoupling; Flux; Torque

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References


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