Title :
Real-time control of the 3-DOF sled dynamics of a -flux Maglev system with a passive sled
Author :
De Boeij, Jeroen ; Steinbuch, Maarten ; Gutiérrez, Hector
Author_Institution :
Dept. of Electr. Eng., Eindhoven Univ. of Technol., Netherlands
fDate :
5/1/2006 12:00:00 AM
Abstract :
The real-time control of the three degrees of freedom (DOF) dynamics of an electrodynamic (EDS) Maglev vehicle is presented. The design is based on a 5-DOF state-space model of the sled dynamics that uses a simple algebraic model to describe the interaction between the -flux coils on the track and the permanent magnets on the sled. A first-order sliding mode controller with integral error term is used to control heave, pitch, and roll in real time from position-attitude information measured with sensors located on the sled. Experimental results show that control of the 3-DOF dynamics of the levitated vehicle in real time can be successfully achieved by the proposed method.
Keywords :
attitude control; magnetic levitation; real-time systems; state-space methods; variable structure systems; vehicle dynamics; -flux Maglev system; -flux coils; -flux levitation; 3-DOF sled dynamics; algebraic model; electrodynamic Maglev vehicle; electrodynamic magnetic suspension; heave control; levitated vehicle; magnetic levitation; magnetic servo levitation; passive sled; permanent magnets; pitch control; real-time control; roll control; sliding mode control; state-space model; Coils; Control systems; Electrodynamics; Error correction; Magnetic levitation; Permanent magnets; Real time systems; Sliding mode control; Vehicle dynamics; Vehicles; -flux levitation; Electrodynamic magnetic suspension; magnetic levitation; magnetic servo levitation; sliding mode control;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.870026
