The 3D modeling technique presented in this paper, predicts, with high accuracy, electromagnetic fields and corresponding dynamic effects in conducting regions for rotating machines with slotless windings, e.g. self-supporting windings. The presented modeling approach can be applied to a wide variety of slotless winding configurations, including skewing and/or different winding shapes. It is capable to account for induced eddy-currents in the conductive rotor parts, e.g. permanent magnet eddy-current losses, albeit not iron and winding AC losses. The specific focus of this paper is to provide the reader with the complete implementation and assumptions details of such a 3D semi-analytical approach, which allows model validations with relativ...
In this thesis modeling, analysis, design and measurement of exterior rotor permanent magnet (PM) ma...
This paper presents a novel analytical technique for predicting 3-dimensional (3D) magnet eddy curre...
Rotor eddy current losses are one of the main reasons of permanent magnet demagnetization in high-sp...
The 3D modeling technique presented in this paper, predicts, with high accuracy, electromagnetic fie...
The 3D modeling technique presented in this paper, predicts, with high accuracy, electromagnetic fie...
Helical windings (or zig-zag windings) are used in a number of applications, however in electrical m...
International audienceTwo-dimensional (2-D) analytical permanent-magnet (PM) eddy-current loss calcu...
This paper presents a design framework for high-speed slotless permanent magnet machines based on ex...
This paper aims at evaluating the eddy current losses during the optimal sizing of slotless BLDC mot...
Permanent-magnet machines with fractional slot concentrated windings are easy to manufacture. Their ...
Purpose – The purpose of this paper is to study the effect of curvature on the magnetic field distri...
This paper presents a design framework for high-speed slotless permanent magnet machines based on ex...
It is well known that in fractional-slot concentrated windings the eddy-current losses in the perman...
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
In this thesis modeling, analysis, design and measurement of exterior rotor permanent magnet (PM) ma...
This paper presents a novel analytical technique for predicting 3-dimensional (3D) magnet eddy curre...
Rotor eddy current losses are one of the main reasons of permanent magnet demagnetization in high-sp...
The 3D modeling technique presented in this paper, predicts, with high accuracy, electromagnetic fie...
The 3D modeling technique presented in this paper, predicts, with high accuracy, electromagnetic fie...
Helical windings (or zig-zag windings) are used in a number of applications, however in electrical m...
International audienceTwo-dimensional (2-D) analytical permanent-magnet (PM) eddy-current loss calcu...
This paper presents a design framework for high-speed slotless permanent magnet machines based on ex...
This paper aims at evaluating the eddy current losses during the optimal sizing of slotless BLDC mot...
Permanent-magnet machines with fractional slot concentrated windings are easy to manufacture. Their ...
Purpose – The purpose of this paper is to study the effect of curvature on the magnetic field distri...
This paper presents a design framework for high-speed slotless permanent magnet machines based on ex...
It is well known that in fractional-slot concentrated windings the eddy-current losses in the perman...
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
In this thesis modeling, analysis, design and measurement of exterior rotor permanent magnet (PM) ma...
This paper presents a novel analytical technique for predicting 3-dimensional (3D) magnet eddy curre...
Rotor eddy current losses are one of the main reasons of permanent magnet demagnetization in high-sp...