Sliding Mode Control for Torque Evolution of a Double Feed Asynchronous   Generator

Ahmed Rhif; Zohra Kardous; Naceur BenHadj Braiek

arXiv:1301.4552·cs.SY·January 5, 2016

Sliding Mode Control for Torque Evolution of a Double Feed Asynchronous Generator

Ahmed Rhif, Zohra Kardous, Naceur BenHadj Braiek

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TL;DR

This paper introduces a sliding mode multimodel control (SMMC) method for double-fed induction generators in wind turbines, enhancing energy quality and efficiency by reducing static error and chattering.

Contribution

It presents a novel SMMC approach that improves control robustness and performance for wind turbine generators compared to existing methods.

Findings

01

Effective reduction of static error

02

Minimized chattering phenomenon

03

Enhanced energy efficiency in simulations

Abstract

This paper proposes a robust control of doublefed induction generator of wind turbine to optimize its production: that means the energy quality and efficiency. The proposed control reposes in the sliding mode control using a multimodel approach which contributes on the minimization of the static error and the chattering phenomenon. This new approach is called sliding mode multimodel control (SMMC). Simulation results show good performances of this control.

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Taxonomy

TopicsWind Turbine Control Systems · Microgrid Control and Optimization · Electric Motor Design and Analysis