Analysis of end effect in ironless stator AFPM machine via MEC model

Abstract: The Halbach-array permanent magnet (PM) rotors can achieve higher air-gap flux density due to magnetic flux gathering effect, which contributes to the higher-torque density improvement of the ironless stator axial flux PM (AFPM) machine. However, the end leakage fluxes of the ironless stator AFPM machine are serious due to the large magnetic resistance of the main flux loop in ironless stator machines. Circular arc straight line permeance model is adopted to calculate magnet-to-magnet and magnet-to-rotor end l… Show more

“…Due to the large reluctance of the main flux loop in the ironless stator motors, the end leakage fluxes of the ironless stator AFPM motors are serious. In the light of this, an MEC model considering end leakage fluxes was established in [76], and the MEC model diagram is shown in Figure 7b. The established MEC model could obtain the leakage coefficients representing the ratio of end leakage fluxes to main flux and radial coefficients representing effective radial lengths of end leakage fluxes.…”

A Review of Axial-Flux Permanent-Magnet Motors: Topological Structures, Design, Optimization and Control Techniques

“…Due to the large reluctance of the main flux loop in the ironless stator motors, the end leakage fluxes of the ironless stator AFPM motors are serious. In the light of this, an MEC model considering end leakage fluxes was established in [76], and the MEC model diagram is shown in Figure 7b. The established MEC model could obtain the leakage coefficients representing the ratio of end leakage fluxes to main flux and radial coefficients representing effective radial lengths of end leakage fluxes.…”

A Review of Axial-Flux Permanent-Magnet Motors: Topological Structures, Design, Optimization and Control Techniques