Title :
Backstepping-based current and voltage control strategy for maglev position device
Author :
Jeng-Dao Lee ; Suiyang Khoo ; Zhi-Bin Wang
Author_Institution :
Dept. of Autom. Eng., Nat. Formosa Univ., Yunlin, Taiwan
Abstract :
This study mainly focuses on the backstepping control (BSC) strategy design, including a traditional backstepping control (TBSC) and an adaptive backstepping control (ABSC) for a current control and a voltage control scheme in a maglev position control system, respectively. In the ABSC system, an adaptive estimation for the lump uncertainty is proposed to ensure the system stability. On the other hand, to solve the trouble of chattering phenomena caused by a sign function in TBSC law in despite of the utilization of a fixed value or an simple adaptive tuning algorithm for the lumped uncertainty bound. The effectiveness of the proposed control with current and voltage control schemes can be verified in experimental results.
Keywords :
adaptive control; control system synthesis; electric current control; magnetic levitation; position control; voltage control; ABSC system; TBSC law; adaptive backstepping control; adaptive estimation; adaptive tuning algorithm; backstepping based current control; lumped uncertainty bound; maglev position control system; maglev position device; sign function; system stability; traditional backstepping control strategy design; voltage control strategy; Backstepping; Control systems; Electromagnets; Force; Magnetic levitation; Uncertainty; Voltage control; adaptive; backstepping; maglev; uncertainty;
Conference_Titel :
Industrial Electronics Society, IECON 2013 - 39th Annual Conference of the IEEE
Conference_Location :
Vienna
DOI :
10.1109/IECON.2013.6699664
