DocumentCode
1512628
Title
Electrodynamic Maglev coil design and analysis
Author
Davey, Kent R.
Author_Institution
American MAGLEV, New Smyrna Beach, FL, USA
Volume
33
Issue
5
fYear
1997
fDate
9/1/1997 12:00:00 AM
Firstpage
4227
Lastpage
4229
Abstract
Electrodynamic Maglev systems are distinguished from electromagnetic systems in that the currents yielding lift and guidance forces are induced by the movement of the vehicle. Above a threshold speed, such a system is inherently stable, and has the additional benefit of having greater flexibility to system construction tolerances in that the magnet vertical position can change by as much as 5 cm. A stacked magnet design is considered which couples into a set of interleave coils which are interconnected in such a way as to yield both lift and guidance forces. A mutual coupling analysis is embraced wherein the mutual inductance between the permanent magnets on board the vehicle and the coils are computed using closed form analytical expressions for filaments. The derivatives of these expressions are then averaged to compute both the induced current and the forces on the coils as a function of the system geometry and speed. A full transient analysis must be performed to accurately account for entry and exit effects. The results are compared to those experimentally measured on a test track and extrapolations are offered to suggest future design considerations
Keywords
coils; magnetic levitation; railways; transient analysis; electrodynamic Maglev coil design; guidance force; induced currents; interleave coils; lift force; magnet vertical position; mutual coupling analysis; stacked magnet design; transient analysis; Coils; Electrodynamics; Electromagnetic forces; Inductance; Magnetic analysis; Magnetic levitation; Mutual coupling; Navigation; Permanent magnets; Vehicles;
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/20.619718
Filename
619718
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