Takashi Sasakawa scite author profile

This paper describes the design considerations and experimental verification of an LIM rail brake armature. In order to generate power and maximize the braking force density despite the limited area between the armature and the rail and the limited space available for installation, we studied a design method that is suitable for designing an LIM rail brake armature; we considered adoption of a ring winding structure. To examine the validity of the proposed design method, we developed a prototype ring winding armature for the rail brakes and examined its electromagnetic characteristics in a dynamic test system with roller rigs. By repeating various tests, we confirmed that unnecessary magnetic field components, which were expected to be present under high speed running condition or when a ring winding armature was used, were not present. Further, the necessary magnetic field component and braking force attained the desired values. These studies have helped us to develop a basic design method that is suitable for designing the LIM rail brake armatures.

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Evaluation of a non-contact power supply system with a figure-of-eight coil for railway vehicles

Ukita

Kashiwagi

Sakamoto

et al. 2015

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Trial Manufacture of Small HTS Magnet Using 2G Tapes for Maglev Train Application

Ogata

Mizuno

Arai

et al. 2011

IEEE Trans. Appl. Supercond.

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