Article | REF: D5537 V1

Electric railway traction - Applications of linear motors

Author: Yves MACHEFERT-TASSIN

Publication date: May 10, 2009

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ABSTRACT

Currently, only two electric motorization systems for railways exist worldwide: inductor circuits in moving parts and inductor circuits on tracks. This article mentions the Maglev applications encompassing the two main push and pull systems. All these systems involve, obliged to be on magnetically charged tracks, the two main types of linear traction motors: synchronous or asynchronous. The commercial application at low speed, for short distances with numerous and frequent stops are differentiated from high speed ones with great distances between each stop. Finally, special prototypes and ongoing research are mentioned.

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AUTHOR

  • Yves MACHEFERT-TASSIN: Honorary Director of Studies and Traction Research, Schneider Group - Channel Tunnel Rail Council and Eurotunnel - Honorary Professor of Electric Traction at the École spéciale des travaux publics (ESTP)

 INTRODUCTION

As we shall see in the history of railway applications of linear motors, there is already an abundance of literature on the principles used and their applications in research, development and testing.

For this reason, we won't go into detail on the principles and calculations, which are very well explained in the [D 3 700] file "Electric motors with linear and compound motion", except of course if the successful application calls for particularly novel arrangements or combinations of functions other than traction and braking, which is the most frequent case of guided systems with magnetic levitation in particular. However, these systems depend on guide or carrier rails, and often on wheels, when the magnetic support elements are not in action, and sometimes even when the linear drive parts are. That's why we're also talking about applications known as "Maglev" (Magnetic Levitation), which covers the two main systems known as "attraction" ("Transrapid" of German origin) or "repulsion" ("Maglev" of Japanese origin). These systems all use the two main types of linear motorization, synchronous or asynchronous, on magnetically-rail-bound track.

After a review of the choice of motors and their power supply, whether mobile, track-mounted or a combination of the two, commercial applications will enable us to differentiate between low-speed systems for short services with numerous stops and high frequencies, and high-speed systems for long distances between stops. Finally, we'd like to mention special prototypes and research still in progress, or still... waiting to evolve.

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