Tahhan, Alaa and Temurtaş, Feyzullah (2024) Enhanced Fuzzy Logic Control Model and Sliding Mode Based on Field Oriented Control of Induction Motor. World Journal of Engineering and Technology, 12 (01). pp. 65-79. ISSN 2331-4222
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Abstract
In the context of induction motor control, there are various control strategies used to separately control torque and flux. One common approach is known as Field-Oriented Control (FOC). This technique involves transforming the three-phase currents and voltages into a rotating reference frame, commonly referred to as the “dq” frame. In this frame, the torque/speed and flux components are decoupled, allowing for independent control, by doing so, the motor’s speed can be regulated accurately and maintain a constant flux which is crucial to ensure optimal motor performance and efficiency. The research focused on studying and simulating a field-oriented control system using fuzzy control techniques for an induction motor. The aim was to address the issue of parameter variations, particularly the change in rotor resistance during motor operation, which causes the control system to deviate from the desired direction. This deviation implies to an increase in the magnetic flux value, specifically the flux component on the q-axis. By employing fuzzy logic techniques to regulate flux vector’s components in the dq frame, this problem was successfully resolved, ensuring that the magnetic flux value remains within the nominal limits. To enhance the control system’s performance, response speed, and efficiency of the motor, sliding mode controllers were implemented to regulate the current in the inner loop. The simulation results demonstrated the proficiency of the proposed methodology.
Item Type: | Article |
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Subjects: | Universal Eprints > Multidisciplinary |
Depositing User: | Managing Editor |
Date Deposited: | 18 Jan 2024 09:56 |
Last Modified: | 18 Jan 2024 09:56 |
URI: | http://journal.article2publish.com/id/eprint/3547 |