A hybrid field model (HFM) based on the combination of magnetic equivalent circuit (MEC) and exact conformal mapping (ECM) is developed to calculate the open-circuit field of interior permanent-magnet (IPM) motor. In the proposed HFM, the IPM and iron saturations are transformed into equivalent current on the rotor surface and stator bore. ECM can calculate the air-gap field analytically using the equivalent current. Once the air-gap field is obtained, the MEC in the iron region can be solved and gives the new value of equivalent current, which forms a calculation loop. Hence, iterative solving process is required to determine the equivalent current and iron permeability in the rotor and stator. In order to verify the proposed model, both f...
International audienceBased exclusively on the exact subdomain (SD) technique and finite-difference ...
This paper describes an analytical approach for calculating the stator iron loss for multiple-barrie...
© Copyright 2007 IEEEA new magnetic circuit model is presented for an interior permanent magnet (IPM...
A hybrid field model (HFM) based on the combination of magnetic equivalent circuit (MEC) and exact c...
In this paper, a new hybrid model is proposed for the prediction of air gap magnetic field distribut...
Due to the local inhomogeneous magnetic saturation of the core of the interior permanent magnet sync...
To accurately and quickly predict the open-circuit air-gap magnetic field in interior permanent magn...
This paper is about the magnetic field analysis of an interior permanent magnet motor (IPM motor) by...
The motor is an important component that affects the output performance of new energy vehicles (usin...
The detailed magnetic field distribution of a permanent magnet electric motor is very important for ...
We present a simple lumped magnetic circuit model for interior permanent-magnet (IPM) machines with ...
Analytical models show weakness in dealing with saturation in surface-mounted permanent-magnet machi...
Module-combined stator permanent-magnet machines have several independent stator modules and each mo...
Abstract In this article, a hybrid analytical model for a quasi‐regular polygon rotor (QPR) is propo...
International audienceThis paper deals with an adaptable semi-analytical model to calculate the open...
International audienceBased exclusively on the exact subdomain (SD) technique and finite-difference ...
This paper describes an analytical approach for calculating the stator iron loss for multiple-barrie...
© Copyright 2007 IEEEA new magnetic circuit model is presented for an interior permanent magnet (IPM...
A hybrid field model (HFM) based on the combination of magnetic equivalent circuit (MEC) and exact c...
In this paper, a new hybrid model is proposed for the prediction of air gap magnetic field distribut...
Due to the local inhomogeneous magnetic saturation of the core of the interior permanent magnet sync...
To accurately and quickly predict the open-circuit air-gap magnetic field in interior permanent magn...
This paper is about the magnetic field analysis of an interior permanent magnet motor (IPM motor) by...
The motor is an important component that affects the output performance of new energy vehicles (usin...
The detailed magnetic field distribution of a permanent magnet electric motor is very important for ...
We present a simple lumped magnetic circuit model for interior permanent-magnet (IPM) machines with ...
Analytical models show weakness in dealing with saturation in surface-mounted permanent-magnet machi...
Module-combined stator permanent-magnet machines have several independent stator modules and each mo...
Abstract In this article, a hybrid analytical model for a quasi‐regular polygon rotor (QPR) is propo...
International audienceThis paper deals with an adaptable semi-analytical model to calculate the open...
International audienceBased exclusively on the exact subdomain (SD) technique and finite-difference ...
This paper describes an analytical approach for calculating the stator iron loss for multiple-barrie...
© Copyright 2007 IEEEA new magnetic circuit model is presented for an interior permanent magnet (IPM...