Abstract
Direct Torque Control (DTC) is known to generate a fast and robust response in asynchronous engines. Yet, during steady state, observable flux, torque and current pulsations arise. This paper presents a study of modified direct torque control applied to a three-phase high performance asynchronous motor. The proposed strategy is based on PI regulators instead of the hysteresis comparators to control both the stator flux and torque whose parameters are determined from modulus and symmetrical optimum criterions. Since the performance of a feedback control system relies on the accuracy of the response signal, an estimator of stator flux and torque is presented. The control system benefits from the advantages of field oriented control (FOC) and conventional direct torque control (DTC) while avoiding some of the disadvantages of either of the two control methods. Performances of the asynchronous motor control are checked by simulations under MATLAB/SIMULINK software.
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References
Korkmaz, F., Topaloğlu, İ., Çakir, M.F., Gürbüz, R.: Comparative performance evaluation of FOC and DTC controlled PMSM drives. In: 4th International Conference on Power Engineering, Energy and Electrical Drives, Istanbul, Turkey, pp. 705–708 (2013)
Liu, Y., Shi, L., Zhao, L., Li, Y.: The FOC and DTC scheme in a high power electrically excited synchronous motor based flywheel energy storage system. In: International Power Electronics and Application Conference and Exposition, Shanghai, China (2014)
Takahashi, I., Noguchi, T.: A new quick-response and high efficiency control strategy of an induction motor. IEEE Trans. IA 22(5), 820–827 (1986)
El Ouanjli, N., Derouich, A., El Ghzizal, A., Ali Chebabhi, A., Taoussi, M.: A comparative study between FOC and DTC controls of the Doubly Fed Induction Motor (DFIM). In: 3rd International Conference on Electrical and Information Technologies, Rabat, Morocco (2017)
Mohd, A.I., Nik Idris, N.R.: Torque ripple reduction and fast torque control in DTC of induction machine using overlapping triangular-based constant frequency torque controller. In: IEEE International Conference on Power and Energy (PECon) (2016)
Cherfia, N., Kerdoun, D.: Wind energy conversion systems based on a DFIG controlled by indirect vector using PWM and SVM. Int. J. Electr. Comput. Eng. (IJECE) 6(2), 549–559 (2015)
Bajracharya, C., Molinas, M., Are Suul, J., Undeland, T.M.: Understanding of tuning techniques of converter controllers for VSC-HVDC. In: Nordic Workshop on Power and Industrial Electronics, 9–11 June 2008
Kazmierkowski, M.P., Tunia, H.: Automatic Control of Converter Fed Drives. Elsevier, Amsterdam-London-New York-Tokyo (1994)
Papadopoulosa, K.G., Margarisb, N.I.: Extending the symmetrical optimum criterion to the design of PID type-p control loops. J. Process Control 22(1), 11–25 (2012)
Kazmierkowski, M.P., Krishnan, R., Blaabjerg, F.: Control in Power Electronics Selected Problems. Academic Press, Heidelberg (2002)
Ouboubker, L., Khafallah, M., Lamterkati, J., El Afia, A.: High torque control performance utilizing a three level inverters with a simple switching strategy of induction machine. In: International Conference on Electrical and Information Technologies (ICEIT) (2016)
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El Daoudi, S., Lazrak, L., Benzazah, C., Ait Lafkih, M. (2019). Modified Strategy of Direct Torque Control Applied to Asynchronous Motor Based on PI Regulators. In: Farhaoui, Y., Moussaid, L. (eds) Big Data and Smart Digital Environment. ICBDSDE 2018. Studies in Big Data, vol 53. Springer, Cham. https://doi.org/10.1007/978-3-030-12048-1_4
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DOI: https://doi.org/10.1007/978-3-030-12048-1_4
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