Title :
A neural-network-based space-vector PWM controller for voltage-fed inverter induction motor drive
Author :
Pinto, Joao O P ; Bose, Bimal K. ; Da Silva, Luiz Eduardo Borges ; Kazmierkowski, Marian P.
Author_Institution :
Dept. of Electr. Eng., Tennessee Univ., Knoxville, TN, USA
Abstract :
A neural-network-based implementation of space-vector modulation (SVM) of a voltage-fed inverter has been proposed in this paper that fully covers the undermodulation and overmodulation regions linearly extending operation smoothly up to square wave. A neural network has the advantage of very fast implementation of an SVM algorithm that can increase the converter switching frequency, particularly when a dedicated application-specific integrated circuit chip is used in the modulator. The scheme has been fully implemented and extensively evaluated in a V/Hz-controlled 5 hp, 60 Hz, 230 V induction motor drive. The performances of the drive with artificial-neural-network-based SVM are excellent. The scheme can be easily extended to a vector-controlled drive.
Keywords :
PWM invertors; application specific integrated circuits; frequency control; induction motor drives; machine control; neurocontrollers; switching circuits; voltage control; 230 V; 5 hp; 60 Hz; application-specific integrated circuit chip; converter switching frequency; frequency control; modulator; neural-network-based space-vector PWM controller; overmodulation region; square wave; undermodulation region; vector-controlled drive; voltage control; voltage-fed inverter induction motor drive; Application specific integrated circuits; Artificial neural networks; Induction motor drives; Neural networks; Pulse width modulation inverters; Space vector pulse width modulation; Support vector machines; Switching converters; Switching frequency; Voltage control;
Journal_Title :
Industry Applications, IEEE Transactions on
