abstract

• This paper introduced the discrete time programming and the simulation by using Matlab/Simulink® of the conventional Direct Torque Control (DTC) with a Fuzzy-Logic-Based (FLB) speed regulator for PM synchronous motors. Fist the conventional DTC principle for PM synchronous motors is analyzed and simulated by using a Proportional Integral (PI) speed controller. Then instead of using the PI controller a proposed Fuzzy-Logic-Based (FLB) speed controller is embedded on the conventional DTC scheme in order to compare the performances of both designed speed regulators under different operating points. Discrete time simulated results confirm that the proposed intelligent controller provides better results than the commonly used classical one. © 2012 IEEE.

authors

• Bonilla-Huerta E.
• Morales-Caporal R.
• Ordonez-Flores R.
• Sandre-Hernandez O.
• Álvarez Salas Ricardo

publication date

• 2012-01-01

published in

• CCE 2012 - 2012 9th International Conference on Electrical Engineering, Computing Science and Automatic Control  Proceedings

keywords

• Discret time; Fuzzy logic; PM synchronous machine; speed control; torque control Digital simulation; Direct torque control; Discret time; Discrete time; Fuzzy speed regulator; Intelligent controllers; MATLAB /simulink; Operating points; PI Controller; PM Synchronous Machines; PM synchronous motor; PM synchronous motor drives; Proportional integral; Simulated results; Speed controller; Automation; Control; Electric drives; Electrical engineering; Fuzzy logic; Process control; Speed control; Synchronous motors; Torque control; Speed regulators

Digital Object Identifier (DOI)

• 10.1109/ICEEE.2012.6421154

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