Title :
A high-precision, magnetically levitated positioning stage: toward contactless actuation for industrial manufacturing
Author :
Owen, Robert Brydon ; Maggiore, Manfredi ; Apkarian, Jacob
fDate :
6/1/2006 12:00:00 AM
Abstract :
In this paper, the feasibility of using iron-cored permanent magnet linear synchronous motors (PMLSM) to develop microsteppers with multiple DOFs is demonstrated. To do this, the accuracy of the mathematical model of the longitudinal and normal forces generated by one PMLSM as well as the performance of a nonlinear feedback linearization controller are investigated. Demonstration of several PMLSMs together can control three DOFs. In both experimental setups, linear guides are used to constrain the motion to be purely translational. Linear guides entail friction, which is undesirable in the photolithography process. Future research involves eliminating linear guides and controlling six DOFs (translations and rotations of the platform).
Keywords :
feedback; linear synchronous motors; linearisation techniques; machine control; magnetic levitation; motion control; nonlinear control systems; permanent magnet motors; position control; stepping motors; iron-cored PMLSMs; linear guides; magnetically levitated positioning stage; microsteppers; motion control; nonlinear feedback linearization control; permanent magnet linear synchronous motors; Magnetic cores; Magnetic devices; Magnetic levitation; Magnetic semiconductors; Manufacturing industries; Manufacturing processes; Piezoelectric actuators; Semiconductor device manufacture; Silicon; Stators;
Journal_Title :
Control Systems, IEEE
DOI :
10.1109/MCS.2006.1636312
