Effects of pole flux distribution in a homopolar linear synchronous machine
Autor: | J. F. Eastham, M. J. Balchin, P.C. Coles |
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Rok vydání: | 1994 |
Předmět: | |
Zdroj: | Journal of Applied Physics. 75:6987-6989 |
ISSN: | 1089-7550 0021-8979 |
Popis: | Linear forms of synchronous electrical machine are at present being considered as the propulsion means in high‐speed, magnetically levitated (Maglev) ground transportation systems. A homopolar form of machine is considered in which the primary member, which carries both ac and dc windings, is supported on the vehicle. Test results and theoretical predictions are presented for a design of machine intended for driving a 100 passenger vehicle at a top speed of 400 km/h. The layout of the dc magnetic circuit is examined to locate the best position for the dc winding from the point of view of minimum core weight. Measurements of flux build‐up under the machine at different operating speeds are given for two types of secondary pole: solid and laminated. The solid pole results, which are confirmed theoretically, show that this form of construction is impractical for high‐speed drives. Measured motoring characteristics are presented for a short length of machine which simulates conditions at the leading and trailing ends of the full‐sized machine. Combination of the results with those from a cylindrical version of the machine make it possible to infer the performance of the full‐sized traction machine. This gives 0.8 pf and 0.9 efficiency at 300 km/h, which is much better than the reported performance of a comparable linear induction motor (0.52 pf and 0.82 efficiency). It is therefore concluded that in any projected high‐speed Maglev systems, a linear synchronous machine should be the first choice as the propulsion means. |
Databáze: | OpenAIRE |
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