Compensation for the iron loss effect in EKF-based speed estimation of vector controlled induction motors
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Date
2008
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Publisher
IEEE
Abstract
In vector controlled induction motor drives, the instantaneous rotor speed is measured using whether sensors or estimators. Since the basic Kalman filter is a state observer, its use in vector controlled schemes has received much attention. However, these schemes are based on the assumption that the existence of iron loss in an induction motor may be neglected. The paper shows the effect of iron loss on the extended Kalman filter performance that is designed on the basis if the ironless induction machine model. Simulation results are carried out to demonstrate this effect as well as the effectiveness of the suggested approach to minimise the speed estimation error without modifying the observer algorithm
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Keywords
Extended Kalman filter, Indirect vector control, Iron loss, Sensorless speed control, AC motors, Cellular radio systems, Control theory, Drives, Electric drives, Estimation, Industrial engineering, Kalman filters, Motors, Power electronics, Speed, Vectors, Wave filters, Electrical drives, Filter performance, Induction machines, Induction motors
Citation
SPEEDAM 2008 - International Symposium on Power Electronics, Electrical Drives, Automation and Motion; Ischia; Italy; 11 June 2008 through 13 June 2008; Category number08EX2053; Code 73530