A neural-network-based space-vector PWM controller for voltage-fed inverter induction motor drive

A neural-network-based space-vector PWM controller for voltage-fed inverter induction motor drive

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 i...

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Veröffentlicht in:IEEE transactions on industry applications 2000-11, Vol.36 (6), p.1628-1636
Hauptverfasser: Pinto, J.O.P., Bose, B.K., Da Silva, L.E.B., Kazmierkowski, M.P.
Format: Artikel
Sprache:eng
Schlagworte:
Application specific integrated circuits
Artificial neural networks
Induction motor drives
Induction motors
Inverters
Modulation
Modulators
Neural networks
Pulse duration modulation
Pulse width modulation inverters
Space vector pulse width modulation
Support vector machines
Switching
Switching converters
Switching frequency
Voltage control
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Zusammenfassung: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.
ISSN:0093-9994
1939-9367
DOI:10.1109/28.887215