A Novel Transverse-Flux PM Linear Machine With Double Ω-Hoop Stator

Multifarious topologies of a transverse flux permanent magnet machine (TFPMM) with characteristics of a large torque and considerable pole-number have been proposed. A TFPMM with a double Omega-hoop stator laminated by traditional steel sheets is presented in this study to enhance the performance of space utilization and power density. The construction of this machine stretches far beyond double-sided ones of the space utilization owning to the most occupied space by efficacious materials. The operation principles, parameter calculation, electromagnetic characteristics, and magnetic field analysis by a three-dimensional finite-element method are presented in detail. The power density curve agrees very well with the theoretical analysis, which has an impressive increment due to a high space utilization ratio. Benefited from the novel topology, this machine is suitable for electric propulsion application in urban rail transit systems.