Comparison of winding configurations in double‐stator switched reluctance machines

Abstract: The double‐stator configuration of the switched reluctance machine (SRM) aims to maximise the energy conversion efficiency by optimising the ratio of motional force to the total magnetic force. Maintaining the attractive features of SRM, the double‐stator switched reluctance machine (DSSRM) proves to have higher torque/power density than the conventional SRM, which is a crucial feature for traction applications. The original winding configuration used in DSSRM is the full‐pitch winding, which yields high‐power… Show more

“…Moreover, the maximum deformation, velocity, and acceleration in the DSSRM in time domain can be lowered by factors of seven, nine and six (Isfahani and Fahimi, 2014). Two winding configurations for DSSRMs, considering machine properties are compared in Cosoroaba et al (2017), and it is concluded that the concentrated windings are a better alternative to the full-pitch windings in DSSRM. The modular stator and segmented rotor are further combined in Kondelaji and Mirsalim (2020), it is shown that the proposed motor has low torque ripple with high-torque production capability.…”

“…Moreover, the maximum deformation, velocity, and acceleration in the DSSRM in time domain can be lowered by factors of seven, nine and six (Isfahani and Fahimi, 2014). Two winding configurations for DSSRMs, considering machine properties are compared in Cosoroaba et al. (2017), and it is concluded that the concentrated windings are a better alternative to the full-pitch windings in DSSRM.…”

Multi-mode operations of double-stator switched reluctance machine for electric vehicle

“…Moreover, the maximum deformation, velocity, and acceleration in the DSSRM in time domain can be lowered by factors of seven, nine and six (Isfahani and Fahimi, 2014). Two winding configurations for DSSRMs, considering machine properties are compared in Cosoroaba et al (2017), and it is concluded that the concentrated windings are a better alternative to the full-pitch windings in DSSRM. The modular stator and segmented rotor are further combined in Kondelaji and Mirsalim (2020), it is shown that the proposed motor has low torque ripple with high-torque production capability.…”

“…Moreover, the maximum deformation, velocity, and acceleration in the DSSRM in time domain can be lowered by factors of seven, nine and six (Isfahani and Fahimi, 2014). Two winding configurations for DSSRMs, considering machine properties are compared in Cosoroaba et al. (2017), and it is concluded that the concentrated windings are a better alternative to the full-pitch windings in DSSRM.…”

Multi-mode operations of double-stator switched reluctance machine for electric vehicle

DSSRM Design With Multiple Pole Arcs Optimization for High Torque and Low Torque Ripple Applications

Design Modification in Single-Tooth Winding Double-Stator Switched Reluctance Motor for Torque Ripple Mitigation