SPEED BACKSTEPPING CONTROL OF THE DOUBLE-FED INDUCTION MACHINE DRIVE

This paper presents a new strategy to improve the performances of speed control of a Double-Fed Induction Machine (DFIM), whose stator and rotor windings are connected to a voltage inverter PWM (Pulse Width Modulation) independently. This work shows the robustness of the adaptive Backstepping control strategy applied to the DFIM. The main objective of this work is to stabilize the speed of the machine to be used in the Aeolians systems. The overall stability of the system is shown through using Lyapunov technique. Therefore, this paper presents the study and analysis of the Backstepping control. Finally, the simulation results of the Backstepping technique are valid on Matlab / Simulink, followed by a detailed analysis and clearly show that the proposed system provides good static and dynamic performance.

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