Add to ORKGThe rotor and magnet loss in single-sided axial flux permanent magnet machines with non-overlapped windings is studied in this paper. FEA estimations of the loss are carried out using both 2-D and 3-D modeling. The rotor and magnet losses are determined separately for stator slot passing and MMF space harmonics from currents in the stator. The segregation of loss between the solid rotor plate and the magnet is addressed. The eddy current loss reduction by magnet segments is discussed as well. The prototype 24 slot/22 pole single-sided AFPMs, fabricated with both single layer and double layer windings are assembled. Methods of loss segregation are illustrated in order to separate the eddy current loss
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
In this study different methods of estimating the additional ac winding loss due to eddy currents at...
The rotor and magnet loss in single-sided axial flux permanent magnet machines with non-overlapped w...
The rotor and magnet loss in single-sided axial ux permanent magnet (AFPM) machines with non-overlap...
The rotor and magnet loss in single-sided axial flux permanent magnet machines with non-overlapped w...
The rotor and magnet loss in single-sided axial flux permanent magnet (AFPM) machines with non-overl...
The rotor and magnet loss in single-sided axial flux permanent magnet (AFPM) machines with non-overl...
The rotor and magnet loss in single-sided axial flux permanent magnet (AFPM) machines with non-overl...
The rotor and magnet loss in single-sided axial ux permanent magnet (AFPM) machines with non-overlap...
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
This paper presents a novel analytical technique for predicting 3-dimensional (3D) magnet eddy curre...
Permanent-magnet machines with fractional slot concentrated windings are easy to manufacture. Their ...
This study proposes a computationally efficient analytical method, for accurate prediction of three-...
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
In this study different methods of estimating the additional ac winding loss due to eddy currents at...
The rotor and magnet loss in single-sided axial flux permanent magnet machines with non-overlapped w...
The rotor and magnet loss in single-sided axial ux permanent magnet (AFPM) machines with non-overlap...
The rotor and magnet loss in single-sided axial flux permanent magnet machines with non-overlapped w...
The rotor and magnet loss in single-sided axial flux permanent magnet (AFPM) machines with non-overl...
The rotor and magnet loss in single-sided axial flux permanent magnet (AFPM) machines with non-overl...
The rotor and magnet loss in single-sided axial flux permanent magnet (AFPM) machines with non-overl...
The rotor and magnet loss in single-sided axial ux permanent magnet (AFPM) machines with non-overlap...
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
This paper presents a novel analytical technique for predicting 3-dimensional (3D) magnet eddy curre...
Permanent-magnet machines with fractional slot concentrated windings are easy to manufacture. Their ...
This study proposes a computationally efficient analytical method, for accurate prediction of three-...
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
On the rotors of an axial-flux PM machine, NdFeB permanent-magnets are very often placed because of ...
In this study different methods of estimating the additional ac winding loss due to eddy currents at...