Speed Observer Design for Linear Induction Motor Drives

Authors

  • Bijan Moaveni School of Railway Engineering, Iran University of Science and Technology
  • Mojtaba Khorshidi School of Railway Engineering, Iran University of Science and Technology
  • Seyed Saeed Fazel School of Railway Engineering, Iran University of Science and Technology
Abstract:

In this paper, a neural network model reference adaptive system speed observer is designed, which can be used in speed control of linear induction motors (LIMs). Dynamical equations of LIM have been considered accurate. In other words, the end effect and the electrical losses of the motor have been included in the motor equivalent circuit. Then equations of the reference model and adaptive model have been extracted. Existence of the speed-dependent functions in the reference model causes error in speed estimation. In order to reduce error, the reference model equations are updated unlike the standard MRAS method. The adaptive model equations have also been discrete and they have been rewritten so as to be represented by a linear neural network (ADALINE). On this basis, the so-called back propagation has been used to compute online, in recursive form, the machine linear speed. Finally, the estimated speed is used for motor speed control. The simulations show the efficiency of the method.

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Journal title

volume 2  issue 1

pages  21- 28

publication date 2014-03-01

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