Artículo de revista
New adaptive high starting torque scalar control scheme for induction motors based on passivity
Date
2020Registration in:
Energies 2020, 13, 1276
10.3390/en13051276
Author
Travieso Torres, Juan Carlos
Vilaragut Llanes, Miriam
Costa Montiel, Ángel
Duarte Mermoud, Manuel
Águila Camacho, Norelys
Contreras Jara, Camilo
Álvarez Gracia, Alejandro
Institutions
Abstract
A novel adaptive high starting torque (HST) scalar control scheme (SCS) for induction motors (IM) is proposed in this paper. It uses a new adaptive-passivity-based controller (APBC) proposed herein for a class of nonlinear systems, with linear explicit parametric dependence and linear stable internal dynamics, which encompasses the IM dynamical model. The main advantage of the HST-SCS includes the ability to move loads with starting-torque over the nominal torque with a simple and cost-effective implementation without needing a rotor speed sensor, variable observers, or parameter estimators. The proposed APBC is based on a direct control scheme using a normalized fixed gain (FG) to fine-tune the adaptive controller parameters. The basic SCS for induction motors (IM) and the HST-SCS were applied to an IM of 200 HP and tested using a real-time simulator controller OPAL-RT showing the achievement of the proposal goal.