A backstepping based computed torque controller for switched reluctance motors driving inertial loads

Author

Carroll, James J. ; Geoghan, Andrew J. ; Dawson, Darren M. ; Vedagarbha, Praveen

Author_Institution

Dept. of Electr. & Comput. Eng., Clarkson Univ., Potsdam, NY, USA

fYear

1995

fDate

28-29 Sep 1995

Firstpage

779

Lastpage

786

Abstract

An integrator backstepping technique is used to design a voltage level controller for switched reluctance (SR) motors driving inertial loads. The results cannot be inferred from similar approaches applied to other machines due to the SR motor´s unique modeling and need for electronic commutation. An interesting feature of the proposed controller is the incorporation of a backstepping based “smooth” commutation strategy for the “shared” specification of the individual SR motor phase currents. The closed loop trajectory tracking error is theoretically shown to be globally uniformly asymptotically stable (GUAS) under the proposed controller given exact model knowledge and full state feedback. Performance of the proposed controller is verified using computer simulation and an experimental setup

Keywords

reluctance motors; backstepping based computed torque controller; closed loop trajectory tracking error; exact model knowledge; full state feedback; globally uniformly asymptotically stable; integrator backstepping technique; smooth commutation strategy; switched reluctance motors; voltage level controller; Backstepping; Commutation; Computer errors; Error correction; Reluctance motors; Strontium; Torque control; Tracking loops; Trajectory; Voltage control;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Applications, 1995., Proceedings of the 4th IEEE Conference on

Conference_Location

Albany, NY

Print_ISBN

0-7803-2550-8

Type

conf

DOI

10.1109/CCA.1995.555848

Filename

555848