Robust sliding mode control and flux observer for induction motor using singular perturbation

An adaptive non-linear observer-based controller is designed for a full model of an induction motor including both electrical and mechanical dynamics. The controller is designed primarily for speed control and is then modi"ed to address position control. Without #ux measurement, the controller has t

In this paper, a controller-observer scheme, based on passivity feedback equivalence and the sliding mode technique, is designed to achieve rotor velocity and rotor #ux norm tracking for the model of an induction motor. The passivity feedback equivalence control law design is based on a passive deco

A robust feedback control of an induction motor is proposed. The theoretical basis is a continuous-time machine model de"ned by a pair of simultaneous complex-coe$cients di!erential equations. The parameter uncertainties and load perturbations are considered in the controller design. The control met

## a b s t r a c t This paper considers a sliding mode control (SMC) of singular systems. The systems under consideration involve nonlinear perturbations and time-varying delays. The aim of this paper is to design a sliding mode controller such that the nonlinear singular system is exponentially s