Title :
Servo design for a high stiffness linear repulsive magnetic-levitation bearing
Author :
Huang, Chao-Ming ; Yen, Jia-Yush
Author_Institution :
Dept. of Mech. Eng., Nat. Taiwan Univ., Taipei, Taiwan
Abstract :
This paper presents the servo design of a high stiffness linear repulsive magnetic-levitation (Maglev) bearing. The maglev bearing is a highly nonlinear system with very serious parameter uncertainties. Most existing literatures have discussed the system stability while very few results have talked about the rigidity of the bearing. This paper proposes an adaptive sliding mode controller via input-output feedback linearization (IOFL) process to overcome these difficulties. The system uncertainties are analyzed and a stability proof is presented. A systematic design procedure is then presented. Comparison among the existing experimental results show that the proposed control has a better performance
Keywords :
adaptive control; control system synthesis; feedback; linearisation techniques; machine control; magnetic bearings; magnetic levitation; nonlinear control systems; servomechanisms; stability; uncertain systems; variable structure systems; I/O feedback linearization; IOFL; Maglev bearing; adaptive sliding mode controller; bearing rigidity; high-stiffness linear repulsive magnetic-levitation bearing; highly nonlinear system; input-output feedback linearization; parameter uncertainties; servo design; stability proof; system stability; system uncertainties; Adaptive control; Linear feedback control systems; Magnetic levitation; Nonlinear systems; Programmable control; Servomechanisms; Sliding mode control; Stability; Uncertain systems; Uncertainty;
Conference_Titel :
American Control Conference, 1999. Proceedings of the 1999
Conference_Location :
San Diego, CA
Print_ISBN :
0-7803-4990-3
DOI :
10.1109/ACC.1999.782899
