Title :
Low-speed sensorless control of induction Machine
Author :
Edelbaher, Gregor ; Jezernik, Karel ; Urlep, Evgen
Author_Institution :
Fac. of Electr. Eng. & Comput. Sci., Univ. of Maribor, Slovenia
Abstract :
Induction motor (IM) speed sensorless control, allowing operation at low and zero speed, optimizing torque response and efficiency, will be presented in this paper. The magnitude and the orientation angle of the rotor flux of the IM are determined by the output of the closed-loop rotor-flux observer based on the calculation of the extended electromotive force of the machine. The proposed rotor-flux-oriented control scheme is robust to parameter variations and external disturbances. Both observer and controller utilize the continuous sliding mode and Lyapunov theory. A smooth transition into the field-weakening region and the full utilization of the inverter current and voltage capability are thus possible. The produced torque is a continuous output variable of control. The performance of the proposed method is investigated and verified experimentally on a digital signal processor.
Keywords :
Lyapunov methods; angular velocity control; closed loop systems; digital signal processing chips; induction motor drives; invertors; machine vector control; observers; torque; variable structure systems; Lyapunov theory; closed-loop rotor-flux observer; continuous sliding mode; digital signal processor; extended electromotive force; external disturbance; field-weakening region; flux-oriented control; induction motor drive; inverter; low-speed sensorless control; orientation angle; parameter variation; torque response; variable-structure system; Electric variables control; Induction machines; Induction motors; Inverters; Robust control; Rotors; Sensorless control; Sliding mode control; Torque control; Voltage; Drives; induction motors (IMs); observers; sensorless control; variable-structure systems (VSSs);
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2005.862307
