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Robust Speed Control of a Low Damped Electromechanical System Based on CRONE Control: Application to a Four Mass Experimental Test Bench
Authors:Jocelyn Sabatier   Serge Poullain   Patrick Latteux   Jean Luc Thomas  Alain Oustaloup
Affiliation:(1) LAP-ENSEIRB, Université Bordeaux 1, Equipe CRONE, UMR 5131 CNRS 351, Cours de la Libération, 33405, Talence Cedex, France;(2) AREVA T&D, Power Electronics Activities 9, Rue Ampère, 91300 Massy, France
Abstract:Robust speed control of a low damped electromechanical system with backlash is studied, controlled load angular speed being not measured. The proposed control strategy combines a Luenberger observer (load angular speed and load torque disturbance estimations) and a robust CRONE controller. The observer provides estimation of the load angular speed and of the disturbance torque applied on the load. Through the computation of only three independent parameters (as many as a PID controller), the CRONE controller permits to ensure the robust speed control of the load in spite of plant parametric variations and speed observation errors. The proposed control strategy is applied to a four mass experimental test bench.
Keywords:adjustable speed drives  backlash  CRONE control  four masses low damped system  fractional differentiation  Luenberger observer  machine tool drives  modeling  robust speed control
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