Title :
The PBC technical to control the induction motor
Author :
Baazouzi, K. ; Bensalah, A.-D. ; Drid, S.
Author_Institution :
Univ. of Batna, Algeria
Abstract :
The major problem of controlling a multi-variable electrical system comes mainly from the lack of information on its structure, which was supposed to always linear, a change in unexpected state may cause system instability, hence the requirement development of a new control structure incorporating nonlinear effects and time-varying phenomena while respecting the desired specifications on their stabilities. A new control scheme for speed induction motors is proposed in the present paper, called "passivity based control (PBC) on the principle of exchange control energy via state feedback was presented it allows to work in several areas. A port-controlled Hamiltonian (PCH) model of the induction motor is deduced to make the interconnection and damping of energy explicit on the scheme. The proposed controller is validated under computational simulations MATLAB.
Keywords :
induction motors; machine control; multivariable control systems; nonlinear control systems; stability; state feedback; time-varying systems; velocity control; PBC technical; PCH model; energy damping; energy interconnection; exchange control energy; induction motor control; multivariable electrical system; nonlinear effects; passivity based control; port-controlled Hamiltonian; speed control; stability; state feedback; time-varying phenomena; Artificial intelligence; Green products; Robots; Stators; Switches; Nonlinear order; Port-controlled Hamiltonian; passivity based control;
Conference_Titel :
Sciences and Techniques of Automatic Control and Computer Engineering (STA), 2014 15th International Conference on
DOI :
10.1109/STA.2014.7086690
