Title :
Investigation of the stability of AC repulsive-force levitation systems for low-speed maglev
Author :
He, J.L. ; Wang, Z. ; Rote, D.M. ; Winkelman, S.
Author_Institution :
Argonne Nat. Lab., IL, USA
fDate :
9/1/1992 12:00:00 AM
Abstract :
Discusses the stability of an AC induction levitation system, focusing on the analysis and optimum design of the secondary conductor. Several improved secondary conductor geometries are considered. A theoretical model with numerical results, as well as experimental observations and data are presented. Theoretical and experimental results indicate that only marginal stability can be achieved with a single-plate secondary conductor. Modifications of the single plate can enhance its stability at rest, but this design suffers from longitudinal instabilities when propelled. It is concluded that a double-plate secondary conductor is stable in all six degrees of freedom
Keywords :
electromagnetic induction; magnetic levitation; stability; AC repulsive-force levitation systems; induction levitation system; longitudinal instabilities; low-speed maglev; secondary conductor; stability; Air gaps; Conductors; Iron; Laboratories; Magnetic cores; Magnetic flux; Magnetic levitation; Stability; Suspensions; Torque;
Journal_Title :
Magnetics, IEEE Transactions on
