Sliding-mode MRAS speed estimators for sensorless vector control of induction Machine

Author

Comanescu, Mihai ; Xu, Longya

Author_Institution

Dept. of Electr. & Comput. Eng., Ohio State Univ., Columbus, OH, USA

Volume

53

Issue

1

fYear

2006

Firstpage

146

Lastpage

153

Abstract

This paper presents two novel sliding mode (SM) model reference adaptive system (MRAS) observers for speed estimation in a sensorless-vector-controlled induction-machine drive. Both methods use the flux estimated by the voltage model observer as the reference and construct SM flux observers that allow speed estimation. Stability and dynamics of the two proposed SM flux observers are discussed. The observers are compared with the classical MRAS observer. The proposed estimators seem very robust and easy to tune. Unlike the classical MRAS, the speed-estimation process is based on algebraic calculations that do not exhibit underdamped poles or zeros on the right-hand plane. Simulations and experimental results on a 1/4-hp three-phase induction machine confirm the validity of the approaches.

Keywords

angular velocity control; induction motor drives; machine vector control; model reference adaptive control systems; observers; robust control; variable structure systems; flux observers; induction-machine drive; model reference adaptive system; robustness; sensorless vector control; sliding-mode control; speed estimation; Adaptive control; Adaptive systems; Delay estimation; Equations; Induction machines; Machine vector control; Programmable control; Rotors; Samarium; Voltage; Induction machine; model reference adaptive system (MRAS); sensorless control; sliding-mode (SM) observers; speed estimation; vector control;

fLanguage

English

Journal_Title

Industrial Electronics, IEEE Transactions on

Publisher

ieee

ISSN

0278-0046

Type

jour

DOI

10.1109/TIE.2005.862303

Filename

1589374