A differential-algebraic approach to speed estimation in an induction motor

Mengwei Li; John Chiasson; Marc Bodson; Leon M. Tolbert

doi:10.1109/TAC.2006.878775

A differential-algebraic approach to speed estimation in an induction motor

Mengwei Li, John Chiasson, Marc Bodson, Leon M. Tolbert

Electrical Engineering Department

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

This note considers a differential-algebraic approach to estimating the speed of an induction motor from the measured terminal voltages and currents. In particular, it is shown that the induction motor speed ω satisfies both a second- and a third-order polynomial equation whose coefficients depend on the stator voltages, stator currents, and their derivatives. It is shown that as long as the stator electrical frequency is nonzero, the speed is uniquely determined by these polynomials. The speed so determined is then used to stabilize a dynamic (Luenberger type) observer to obtain a smoother speed estimate. With full knowledge of the machine parameters and filtering of the sensor noise, simulations indicate that this estimator has the potential to provide low speed (including zero speed) control of an induction motor under full rated load.

Original language	English
Pages (from-to)	1172-1177
Number of pages	6
Journal	IEEE Transactions on Automatic Control
Volume	51
Issue number	7
DOIs	https://doi.org/10.1109/TAC.2006.878775
State	Published - Jul 2006

Keywords

Differential-algebraic
Induction motor
Sensorless control
Speed estimation

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10.1109/TAC.2006.878775

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title = "A differential-algebraic approach to speed estimation in an induction motor",

abstract = "This note considers a differential-algebraic approach to estimating the speed of an induction motor from the measured terminal voltages and currents. In particular, it is shown that the induction motor speed ω satisfies both a second- and a third-order polynomial equation whose coefficients depend on the stator voltages, stator currents, and their derivatives. It is shown that as long as the stator electrical frequency is nonzero, the speed is uniquely determined by these polynomials. The speed so determined is then used to stabilize a dynamic (Luenberger type) observer to obtain a smoother speed estimate. With full knowledge of the machine parameters and filtering of the sensor noise, simulations indicate that this estimator has the potential to provide low speed (including zero speed) control of an induction motor under full rated load.",

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AU - Li, Mengwei

AU - Chiasson, John

AU - Bodson, Marc

AU - Tolbert, Leon M.

PY - 2006/7

Y1 - 2006/7

N2 - This note considers a differential-algebraic approach to estimating the speed of an induction motor from the measured terminal voltages and currents. In particular, it is shown that the induction motor speed ω satisfies both a second- and a third-order polynomial equation whose coefficients depend on the stator voltages, stator currents, and their derivatives. It is shown that as long as the stator electrical frequency is nonzero, the speed is uniquely determined by these polynomials. The speed so determined is then used to stabilize a dynamic (Luenberger type) observer to obtain a smoother speed estimate. With full knowledge of the machine parameters and filtering of the sensor noise, simulations indicate that this estimator has the potential to provide low speed (including zero speed) control of an induction motor under full rated load.

AB - This note considers a differential-algebraic approach to estimating the speed of an induction motor from the measured terminal voltages and currents. In particular, it is shown that the induction motor speed ω satisfies both a second- and a third-order polynomial equation whose coefficients depend on the stator voltages, stator currents, and their derivatives. It is shown that as long as the stator electrical frequency is nonzero, the speed is uniquely determined by these polynomials. The speed so determined is then used to stabilize a dynamic (Luenberger type) observer to obtain a smoother speed estimate. With full knowledge of the machine parameters and filtering of the sensor noise, simulations indicate that this estimator has the potential to provide low speed (including zero speed) control of an induction motor under full rated load.

KW - Differential-algebraic

KW - Induction motor

KW - Sensorless control

KW - Speed estimation

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JO - IEEE Transactions on Automatic Control

JF - IEEE Transactions on Automatic Control

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ER -

A differential-algebraic approach to speed estimation in an induction motor

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Keywords

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