International audienceIn this paper a coupled multi-physics model is proposed for a multi-V-shape Interior Permanent Magnet (IPM) motor with concentrated winding. A non-linear magnetic model computes the flux density in the stator and the rotor and delivers the torque, the internal power factor and the internal voltage. It is coupled with an electrical model that computes the power factor and the voltage at the motor terminals by considering the resistance and the leakage inductance. A loss model is developed in order to calculate the copper and the iron losses. They are used as inputs to a thermal model that computes the temperature of the motor. Finally, a multi-objective optimization is carried out in order to design the motor for a high...
The conventional scaling rules for the optimal design of electric machines are best suited for natur...
A new and efficient analytical optimization methodology for the design of rotor features is develope...
Interior permanent magnet (IPM) motors are normally designed with two or more flux barriers per pole...
International audienceIn this paper a coupled multi-physics model is proposed for a multi-V-shape In...
International audienceIn this paper a multi-physics model is proposed for a multi-V-shape Interior P...
International audienceThis paper presents a non-linear analytical model of a multi-V-shape Interior ...
International audienceThis paper presents a non-linear analytical model of a multi-V-shape Interior ...
Interior Permanent-magnet Machines (IPMs) have seen wide usage in industry due to their robustness, ...
This paper proposes a new design technique for improving torque performance of interior permanent ma...
Interior permanent magnet (IPM) machines and non-overlapping concentrated windings (CW) are two desi...
This paper presents a comparison of an AC radial flux interior permanent magnet (IPM) motor with the...
International audienceThis paper presents a layered multi-physical model for sizing optimization as ...
The interior permanentmagnet synchronous motor (IPMSM) is usually applied to the traction motor in t...
A computationally efficient design of interior permanent magnet (IPM) motor rotor features is invest...
This paper compares the characteristics of Interior Permanent Magnet Synchronous Motor (IPMSM) equip...
The conventional scaling rules for the optimal design of electric machines are best suited for natur...
A new and efficient analytical optimization methodology for the design of rotor features is develope...
Interior permanent magnet (IPM) motors are normally designed with two or more flux barriers per pole...
International audienceIn this paper a coupled multi-physics model is proposed for a multi-V-shape In...
International audienceIn this paper a multi-physics model is proposed for a multi-V-shape Interior P...
International audienceThis paper presents a non-linear analytical model of a multi-V-shape Interior ...
International audienceThis paper presents a non-linear analytical model of a multi-V-shape Interior ...
Interior Permanent-magnet Machines (IPMs) have seen wide usage in industry due to their robustness, ...
This paper proposes a new design technique for improving torque performance of interior permanent ma...
Interior permanent magnet (IPM) machines and non-overlapping concentrated windings (CW) are two desi...
This paper presents a comparison of an AC radial flux interior permanent magnet (IPM) motor with the...
International audienceThis paper presents a layered multi-physical model for sizing optimization as ...
The interior permanentmagnet synchronous motor (IPMSM) is usually applied to the traction motor in t...
A computationally efficient design of interior permanent magnet (IPM) motor rotor features is invest...
This paper compares the characteristics of Interior Permanent Magnet Synchronous Motor (IPMSM) equip...
The conventional scaling rules for the optimal design of electric machines are best suited for natur...
A new and efficient analytical optimization methodology for the design of rotor features is develope...
Interior permanent magnet (IPM) motors are normally designed with two or more flux barriers per pole...