Title :
Observer-based fault tolerant controller design for Induction Motor drive in EV
Author :
Aouaouda, S. ; Boukhnifer, M.
Author_Institution :
LEER, Mohamed Cherif Messaadia Univ., Souk-Ahras, Algeria
Abstract :
This paper deals with the problem of fault tolerant tracking controller (FTTC) design for Induction Motor (IM) drive in electric vehicle (EV) with optimal performance. First, the Takagi-Sugeno (T-S) model representation was adopted to approximate the nonlinear dynamic of IM subject to speed sensor faults and unknown bounded disturbance. Next based on robust H∞ fault detection observer design a Modified Field Oriented Controller (MFOC) is designed. This scheme requires the knowledge of the occurring faults which are estimated from a descriptor observer. The observer gains were determined by solving a set of Linear Matrix Inequality (LMI). Finally, simulation results are given to demonstrate the controller´s effectiveness evaluated on 7.5kw Induction Motor.
Keywords :
H∞ control; control system synthesis; electric vehicles; fault tolerant control; induction motor drives; linear matrix inequalities; nonlinear dynamical systems; observers; robust control; sensors; IM; LMI; Takagi-Sugeno model representation; electric vehicle; linear matrix inequality; modified field oriented controller; nonlinear dynamics; observer-based fault tolerant controller design; optimal performance; power 7.5 kW; robust H∞ fault detection observer design; speed sensor faults; unknown bounded disturbance; Biological system modeling; Fault detection; Fault tolerance; Fault tolerant systems; Induction motors; Observers; Rotors; Electric vehicle (EV); LMI; T-S fuzzy model; descriptor observer; disturbance; fault tolerant controller (FTC); modified field-oriented control (MFOC);
Conference_Titel :
Control Applications (CCA), 2014 IEEE Conference on
Conference_Location :
Juan Les Antibes
DOI :
10.1109/CCA.2014.6981490
