Add to ORKGAbstract –This paper proposes a new design of rotor shape of Interior Permanent Magnet Synchronous Motor (IPMSM) used for agricultural electric vehicle (AEV). The distribution of the residual magnetic flux density at the air gap is modified by rotor surface shape and V-type magnet angle. As a result, cogging torque and physical characteristic have been improved, and back electromotive force (back-EMF) of the suggested model has been improved to be closest to sine wave form compared to initial model. The validity of the proposed rotor shape optimization is confirmed by the manufactured IPM rotor core and measured the performance of the cogging torque
In battery electric vehicles, permanent magnet synchronous IPM motors are gaining more and more grou...
This paper presents flexible flux-barrier designs in an interior permanent magnet synchronous motor ...
This paper presents the analysis, characterization and comparison of the cogging torque components g...
The external-rotor permanent magnet torque motor is widely used in electric vehicles and mobile robo...
International audienceIn most of the industrial applications, such as vehicular traction, when a Per...
This article describes a simple cogging torque minimization procedure for interior permanent magnet ...
As motor design is key to the development of electric vehicles (EVs) and hybrid EVs (HEVs), it has r...
Permanent magnet motors (PMMs) are widely used in electric vehicles because of their benefits. Based...
This paper proposes two approaches to minimize torque pulsations, including cogging torque and elect...
This paper deals with torque and cogging torque analysis of interior permanent magnet (IPM) motor co...
This paper deals with torque and cogging torque analysis of interior permanent magnet (IPM) motor co...
This paper proposes two approaches to minimize torque pulsations, including cogging torque and elect...
Permanent magnet synchronous motors (PMSMs) provide a competitive technology for EV traction drives ...
Interior permanent magnet (IPM) motors are normally designed with two or more flux barriers per pole...
Cogging torque and electromagnetic vibration are two important factors for evaluating permanent magn...
In battery electric vehicles, permanent magnet synchronous IPM motors are gaining more and more grou...
This paper presents flexible flux-barrier designs in an interior permanent magnet synchronous motor ...
This paper presents the analysis, characterization and comparison of the cogging torque components g...
The external-rotor permanent magnet torque motor is widely used in electric vehicles and mobile robo...
International audienceIn most of the industrial applications, such as vehicular traction, when a Per...
This article describes a simple cogging torque minimization procedure for interior permanent magnet ...
As motor design is key to the development of electric vehicles (EVs) and hybrid EVs (HEVs), it has r...
Permanent magnet motors (PMMs) are widely used in electric vehicles because of their benefits. Based...
This paper proposes two approaches to minimize torque pulsations, including cogging torque and elect...
This paper deals with torque and cogging torque analysis of interior permanent magnet (IPM) motor co...
This paper deals with torque and cogging torque analysis of interior permanent magnet (IPM) motor co...
This paper proposes two approaches to minimize torque pulsations, including cogging torque and elect...
Permanent magnet synchronous motors (PMSMs) provide a competitive technology for EV traction drives ...
Interior permanent magnet (IPM) motors are normally designed with two or more flux barriers per pole...
Cogging torque and electromagnetic vibration are two important factors for evaluating permanent magn...
In battery electric vehicles, permanent magnet synchronous IPM motors are gaining more and more grou...
This paper presents flexible flux-barrier designs in an interior permanent magnet synchronous motor ...
This paper presents the analysis, characterization and comparison of the cogging torque components g...