Implementation and validation of backstepping control for PMSG wind turbine using dSPACE controller board

This paper depicts the plan and usage continuously of a nonlinear control for a wind energy conversion system (WECS). The Back stepping control has been executed to improve the exhibition of the conversion system dependent on a permanent magnet synchronous generator (PMSG) associated with the grid. Two static back to back converters ensure grid connections and are controlled by Pulse Width Modulation (PWM). The proposed control algorithm ensure proper speed control to extract maximum power. First of all, a WECS full review has been discussed. Thereafter, a Back stepping control laws detailed description based on the Lyapunov stability technique has been reported. Consequently, these control thus helping it possible to operate the complete system in the best performances in the static and dynamic regimes. The second part of this article has been devoted to the Back stepping control the Mat lab–Simulink environment in order to check and validate the system efficiency. The results achieved have been clearly responded to the requirements of robustness and follow-up of references even under fluctuating wind conditions, and confirmed the control effectiveness in both static and dynamic operating modes.