Analytical models show weakness in dealing with saturation in surface-mounted permanent-magnet machines. A hybrid field model (HFM) integrating complex permeance method (CPM) and lumped parameter magnetic circuit model (LPMCM) is proposed in this paper for predicting the on-load magnetic field considering nonlinearity effect of stator lamination. In the proposed model, the CPM calculates the field in the air gap and magnet regions, while LPMCM calculates the magnetic potential distribution inside the iron reflecting nonlinearity effect. The equivalent current sheet is obtained to replace such distribution on the stator bore. Moreover, local magnetic saturation of tooth tip is also transformed into equivalent current on the tooth surface. A ...
This paper introduces a novel hybrid-excited stator slot opening permanent magnet (PM) machine (HSSP...
International audienceThis paper deals with the nonlinear analytical harmonic modeling (HM) of three...
Permanent-magnet synchronous machines (PMSMs) are widely used in electric vehicles owing to many adv...
Module-combined stator permanent-magnet machines have several independent stator modules and each mo...
This paper presents a comprehensive analytical subdomain model together with its field solutions for...
In this paper a comprehensive nonlinear model of surface mounted permanent magnet synchronous machin...
This paper presents a 2-D hybrid analytical modeling method for the analysis of the magnetostatic fi...
In this paper a comprehensive magnetic model is developed for a surface mounted permanent magnet syn...
The article presents an analytically rapid evaluation technique for interior permanent magnet (IPM) ...
International audienceThis paper presents a simple approach to account for saturation and its effect...
A hybrid field model (HFM) based on the combination of magnetic equivalent circuit (MEC) and exact c...
International audience<div class="intent_sub_item Abstract__block mb-3"> ...
The detailed magnetic field distribution of a permanent magnet electric motor is very important for ...
International audience<span style="color: rgba(0, 0, 0, 0.87); font-family: "Open Sans", s...
This paper presents simple analytical modelling for 2 types of 3-phase surface-mounted permanent mag...
This paper introduces a novel hybrid-excited stator slot opening permanent magnet (PM) machine (HSSP...
International audienceThis paper deals with the nonlinear analytical harmonic modeling (HM) of three...
Permanent-magnet synchronous machines (PMSMs) are widely used in electric vehicles owing to many adv...
Module-combined stator permanent-magnet machines have several independent stator modules and each mo...
This paper presents a comprehensive analytical subdomain model together with its field solutions for...
In this paper a comprehensive nonlinear model of surface mounted permanent magnet synchronous machin...
This paper presents a 2-D hybrid analytical modeling method for the analysis of the magnetostatic fi...
In this paper a comprehensive magnetic model is developed for a surface mounted permanent magnet syn...
The article presents an analytically rapid evaluation technique for interior permanent magnet (IPM) ...
International audienceThis paper presents a simple approach to account for saturation and its effect...
A hybrid field model (HFM) based on the combination of magnetic equivalent circuit (MEC) and exact c...
International audience<div class="intent_sub_item Abstract__block mb-3"> ...
The detailed magnetic field distribution of a permanent magnet electric motor is very important for ...
International audience<span style="color: rgba(0, 0, 0, 0.87); font-family: "Open Sans", s...
This paper presents simple analytical modelling for 2 types of 3-phase surface-mounted permanent mag...
This paper introduces a novel hybrid-excited stator slot opening permanent magnet (PM) machine (HSSP...
International audienceThis paper deals with the nonlinear analytical harmonic modeling (HM) of three...
Permanent-magnet synchronous machines (PMSMs) are widely used in electric vehicles owing to many adv...