Title :
Sensorless switched reflectance motor drive with torque ripple minimization
Author :
Ooi, Hoe S. ; Green, Tim C.
Author_Institution :
Dept. of Electr. & Electron. Eng., Imperial Coll. of Sci., Technol. & Med., London, UK
Abstract :
Position sensorless torque ripple minimization techniques are presented to deal with the issues of rotor position sensor requirement and high torque ripple production in a switched reluctance motor (SRM) drive. In the proposed methods, multilayer perceptron (MLP) neural networks have been applied to learn the nonlinear electrical characteristics of an SRM. The nonlinear model of an SRM is used in the simulation which takes into account the magnetisation saturation effect. The model is verified with experimental flux linkage, inductance and torque data taken from a 7.5 kW SRM. Simulation results have shown that torque ripple minimization can be achieved without a rotor position sensor or torque sensor. Experimental work has been undertaken to show the effectiveness of the torque prediction by the neural network
Keywords :
machine control; magnetic flux; magnetisation; multilayer perceptrons; reluctance motor drives; rotors; torque control; 7.5 kW; flux linkage; high torque ripple production; inductance; magnetisation saturation effect; multilayer perceptron neural networks; nonlinear electrical characteristics; position sensorless torque ripple minimization; rotor position sensor; rotor position sensor requirement; sensorless switched reflectance motor drive; switched reluctance motor drive; torque data; torque prediction; torque ripple minimization; torque sensor; Magnetic sensors; Motor drives; Neural networks; Production; Reflectivity; Reluctance machines; Reluctance motors; Rotors; Sensor phenomena and characterization; Torque;
Conference_Titel :
Power Electronics Specialists Conference, 2000. PESC 00. 2000 IEEE 31st Annual
Conference_Location :
Galway
Print_ISBN :
0-7803-5692-6
DOI :
10.1109/PESC.2000.880534
