Affiliation:
1. Mohammed 5 University, Mohammadia School of Engineering, Department of Electrical Engineering, Agdal Rabat, MOROCCO
Abstract
The direct torque control (DTC) was proposed as an alternative to the vector control in the middle of 1980s. This strategy is based on the direct determination of inverter switching states and offers a simpler scheme and less sensitivity to machine parameters. However, the variable switching frequency of DTC causes high flux and torque ripples which lead to an acoustical noise and degrade the performance of the control scheme, especially at low-speed regions. In the objective of improving the performance of DTC for the induction motor, a fuzzy logic based non-linear speed controller is inserted to ensure a robust control against different uncertainties and external disturbances. Moreover, the sensorless control can increase the reliability and decrease the cost of the control system. Therefore, a fuzzy adaptive Luenberger observer is used to improve the speed and the flux estimation.
Publisher
World Scientific and Engineering Academy and Society (WSEAS)
Subject
Artificial Intelligence,General Mathematics,Control and Systems Engineering
Reference19 articles.
1. G. Renukadevi and K. Rajambal, Modeling and analysis of multi-phase inverter fed induc-tion motor drive with different phase numbers, WSEAS transactions on systems and control,2013, vol. 8, no 3, pp. 73–80.
2. I. Takahashi and T. Noguchi, A new quick-response and high-efficiency control strategy ofan induction motor, IEEE Transactions on Indus-try applications, 1986, no 5, pp. 820–827.
3. M. Depenbrock, Direct self-control (DSC)of inverter fed induction machine, In IEEE Power Electronics Specialists Conference, 1987,pp. 632–641. IEEE.
4. A. Sivaprakasam and J. D. Anunciya, A Surveyon Matrix Converter fed Direct Torque Control Techniques for AC Machines, IETE Journal of Research, 2019, pp. 1-1.
5. Y. Zahraoui, M. Akherraz and C. Fahassa, Induction motor DTC performance improvement by reducing torque ripples in low speed, UPBSci. Bull. Ser. C, 2019, vol. 81, no 3, pp. 249–260.
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