Title :
Speed-sensorless vector torque control of induction machines using a two-time-scale approach
Author :
Hofmann, Heath ; Sanders, Seth R.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., California Univ., Berkeley, CA, USA
Abstract :
Conditions for observability of a linearized smooth-airgap induction machine model are examined, and limitations of any speed-sensorless observer scheme based on such a model are discussed. An approach for speed-sensorless flux estimation based on singular perturbation theory is developed. This approach relies on the natural time-scale separation between the electrical and mechanical dynamics of the induction machine. A full-order observer of an induction machine is presented, incorporating a correction term which has an intuitive explanation when one considers steady-state stator currents. Using singular perturbation theory, convergence of the observer is shown for all open-loop stable operating points of the induction machine, with the exception of DC excitation. Sensitivity of the observer to parameter deviations is discussed. Experimental results are presented confirming the validity of the above approach
Keywords :
asynchronous machines; control system analysis; control system synthesis; machine control; machine testing; machine theory; observability; observers; perturbation theory; stators; torque control; correction term; flux estimation; full-order observer; induction machines; linearized model; natural time-scale separation; observability; observer convergence; open-loop stable operating points; parameter deviations sensitivity; singular perturbation theory; speed-sensorless vector torque control; steady-state stator currents; two-time-scale approach; Convergence; Current measurement; Induction machines; Industry Applications Society; Observability; Stators; Steady-state; Torque control; Velocity measurement; Voltage;
Journal_Title :
Industry Applications, IEEE Transactions on
