Title :
Sensorless rotor velocity tracking control for induction motors
Author :
Feemster, M. ; Aquino, P. ; Dawson, D.M. ; Behal, A.
Author_Institution :
Dept. of Electr. & Comput. Eng., Clemson Univ., SC, USA
fDate :
7/1/2001 12:00:00 AM
Abstract :
We present a sensorless control algorithm that achieves semi-global exponential rotor velocity tracking for the full-order nonlinear dynamic model of an induction motor actuating a mechanical subsystem. The proposed controller utilizes stator current measurements, but is termed sensorless due to the fact that no mechanical sensors are required and that stator current measurements can be obtained in an inexpensive/simplistic manner. The control strategy utilizes a novel rotor velocity observer which facilitates the potential for improved rotor velocity tracking transient performance. In addition, the observed integrator backstepping technique is utilized to ensure that the observer-based controller remains bounded. Experimental results are included to verify the effectiveness of the controller
Keywords :
Lyapunov methods; angular velocity control; feedback; induction motors; mechanical stability; observers; rotors; tracking; transient response; Lyapunov method; backstepping; feedback; induction motors; nonlinear dynamic model; observer; rotor; sensorless control; stability; stator current measurements; tracking; transient response; velocity control; Control systems; Current measurement; Hardware; Induction motors; Mechanical sensors; Rotors; Sensor systems; Sensorless control; Stators; Velocity control;
Journal_Title :
Control Systems Technology, IEEE Transactions on
