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Sensorless Fault Tolerant Control for Induction Motors
Nadia Djeghali,Malek Ghanes,Saїd Djennoune,Jean-Pierre Barbot 제어·로봇·시스템학회 2013 International Journal of Control, Automation, and Vol.11 No.3
In this paper, a sensorless fault tolerant controller for induction motors is developed. In the proposed approach, a robust controller based on backstepping strategy is designed in order to compensate for both the load torque disturbance and the rotor resistance variation caused by the broken rotor bars faults. The proposed approach needs neither fault detection and isolation schemes nor controller re-design. Moreover, to avoid the use of speed and flux sensors, a second order sliding mode observer is introduced to estimate the flux and the speed. The observer converges in a finite time and leads to good estimates of the flux and the speed even in the presence of the rotor resistance variation and the load torque disturbance. Since the observer converges in the finite time, the stability of the closed-loop system (controller with observer) is shown in two steps. First, the boundedness of the closed-loop sys-tem trajectories before the convergence of the observer is proved. Second, the convergence of the closed-loop system trajectories is proved after the convergence of the observer. To highlight the effi-ciency and applicability of the proposed control scheme, simulation and experimental results are con-ducted for a 1.5 kW induction motor.
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