Torque ripple reduction in 12-slot 10-pole fractional slot permanent magnet synchronous motors with non-overlapping windings by implementation of unequal stator teeth widths

Abstract: This paper describes an optimization of the stator geometry in a way that the torque ripple at particular load is reduced.The principle applied to the torque ripple reduction is based on the synchronous inductance variation suppression, caused by the non-linear steel saturation, which might be significant even in permanent magnet synchronous motors (PMSMs) with rotor surface permanent magnets.The design optimization, described in this paper, aims in reducing the armature reaction influence on the local steel s… Show more

“…The tooth width plays an important part in determining the power of the motor as it is proportional to the square of the tooth pitch, “τp.” Zhang et al (2017) presented the effects of teeth pitch ratio. Petrov et al (2014) observed that the torque of the system is increased by reducing the saturation through rearrangement of stator teeth widths. Therefore, it is identified that tooth optimization reduces the armature reaction influence on the produced force.…”

System design, analysis, and experimental investigations of linear switched reluctance machines with double mover configuration

“…The tooth width plays an important part in determining the power of the motor as it is proportional to the square of the tooth pitch, “τp.” Zhang et al (2017) presented the effects of teeth pitch ratio. Petrov et al (2014) observed that the torque of the system is increased by reducing the saturation through rearrangement of stator teeth widths. Therefore, it is identified that tooth optimization reduces the armature reaction influence on the produced force.…”

System design, analysis, and experimental investigations of linear switched reluctance machines with double mover configuration

Reduction of torque ripple in synchronous machines by quasi-skew-asymmetric rotor

Comparative Study of Two Different PMSG with Different Slot Pole Combination Having Non-Overlapping Winding Configuration