Model Reference Adaptive Controller-Based Rotor Resistance and Speed Estimation Techniques for Vector Controlled Induction Motor Drive Utilizing Reactive Power

In this paper, a detailed study on the model reference adaptive controller (MRAC) utilizing the reactive power is presented for the online estimation of rotor resistance to maintain proper flux orientation in an indirect vector controlled induction motor drive. Selection of reactive power as the fun...

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Bibliographic Details
Published in:IEEE transactions on industrial electronics (1982) 2008-02, Vol.55 (2), p.594-601
Main Authors: Maiti, S., Chakraborty, C., Hori, Y., Ta, M.C.
Format: Article
Language:English
Subjects:
Adaptive control
Adaptive control systems
Automatic control
Drift and saturation
Flux
indirect vector control
Induction motor drives
Induction motors
Mathematical analysis
Model reference
model reference adaptive controller (MRAC)
Power system modeling
Programmable control
Reactive power
Reactive power control
Rotors
Stators
Steady-state
Vectors (mathematics)
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Summary:In this paper, a detailed study on the model reference adaptive controller (MRAC) utilizing the reactive power is presented for the online estimation of rotor resistance to maintain proper flux orientation in an indirect vector controlled induction motor drive. Selection of reactive power as the functional candidate in the MRAC automatically makes the system immune to the variation of stator resistance. Moreover, the unique formation of the MRAC with the instantaneous and steady-state reactive power completely eliminates the requirement of any flux estimation in the process of computation. Thus, the method is less sensitive to integrator-related problems like drift and saturation (requiring no integration). This also makes the estimation at or near zero speed quite accurate. Adding flux estimators to the MRAC, a speed sensorless scheme is developed. Simulation and experimental results have been presented to confirm the effectiveness of the technique.
ISSN:0278-0046
1557-9948
DOI:10.1109/TIE.2007.911952