A Flux Switching Brushless Motor with Single Laminated Winding
A single-layer winding, brushless motor technology, applied in the shape/style/structure of the winding conductor, etc., can solve the problems of limiting the motor output and overall performance, increasing the difficulty of phase-to-phase insulation, weakening the salient pole effect, etc., to improve the torque. (power) density, reduction of insulation difficulty and cost, effect of motor torque improvement
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[0048] Different from the traditional flux-switching brushless motor, the single-layer stacked winding flux-switching brushless motor proposed by the present invention adopts a single-layer stacked winding connection mode, and each armature coil spans multiple stator core units, and the winding coils of different phases There is an overlap between them, and the two conductor sides of each coil occupy an entire stator slot, and are not shared with other phase coil conductors. Concrete implementation scheme is as follows:
[0049] 1) First, according to the motor stator slot number N s and the number of rotor poles N r Determine the phase difference α (electrical angle) between the no-load induced potentials of two adjacent stator slot conductors, the formula is as follows:
[0050]
[0051] Draw N in turn s The phasor star diagram corresponding to the no-load induced potential of a slot conductor.
[0052] 2) Based on the slot conductor potential star diagram, connect tw...
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