Field orientation and adaptive backstepping for induction motor control

Author

Tan, Hong

Author_Institution

Control & Power Technol., Rockwell Sci. Center, Thousand Oaks, CA

Volume

4

fYear

1999

fDate

1999

Firstpage

2357

Abstract

Based on a nonlinear model of induction motor containing both electrical and mechanical dynamics, an combined field orientation and adaptive backstepping approach is proposed in this paper for the control of induction motors. Rotor angular speed and rotor flux amplitude tracking objectives are formulated so that the speed regulation is achieved with the consideration of improving power efficiency. Parameter uncertainties of the rotor resistance and load torque disturbance are compensated using adaptive control techniques. Simulation results are provided to demonstrate the effectiveness of the proposed approach

Keywords

adaptive control; compensation; control system analysis; control system synthesis; induction motors; machine theory; machine vector control; rotors; stability; velocity control; adaptive backstepping; adaptive control techniques; control design; control simulation; field orientation; induction motor control; load torque disturbance compensation; nonlinear model; parameter uncertainties compensation; power efficiency improvement; rotor angular speed; rotor flux amplitude tracking; rotor resistance; speed regulation; Adaptive control; Backstepping; Couplings; Equations; Inductance; Induction motors; Programmable control; Rotors; Sliding mode control; Stators;

fLanguage

English

Publisher

ieee

Conference_Titel

Industry Applications Conference, 1999. Thirty-Fourth IAS Annual Meeting. Conference Record of the 1999 IEEE

Conference_Location

Phoenix, AZ

ISSN

0197-2618

Print_ISBN

0-7803-5589-X

Type

conf

DOI

10.1109/IAS.1999.799172

Filename

799172