This paper deals with iron losses caused by fringing fluxes generated by the concentrated stator windings of an axial-flux permanent magnet synchronous machine. Fringing fluxes enter the laminated stator stack perpendicularly to the plane of the laminated silicon steel sheets. They cause additional eddy currents and losses in the sheets. Three approaches for reducing these losses are compared experimentally with a dedicated setup. The setup has no moving parts and makes accurate iron loss measurement possible. The first method directly restricts the eddy-current losses by segmenting the lamination surface. The second method deflects the fringing flux by using soft magnetic composite. The third method magnetically short circuits the fringing...
In this thesis, we develop a 3-D analytical model for the eddy current loss in the permanent magnet ...
grantor: University of TorontoThis thesis proposes a refined approach to evaluate iron los...
This paper presents a methodology for identifying a novel iron loss model and segregating the differ...
This paper deals with iron losses caused by fringing fluxes generated by the concentrated stator win...
This paper compares the iron losses generated by the concentrated excitation windings of an axial-fl...
This paper compares the iron losses generated by the concentrated excitation windings of an axial-fl...
This paper compares the iron losses generated by the concentrated excitation windings for the axial ...
Laminated media are intended to conduct the magnetic flux in the plane (high permeability and high e...
One potential problem associated with the high electrical frequency in high-speed electrical machine...
A closed-loop computer-controlled single-sheet test system has been developed to characterise lamin...
While methods of determining the iron loss in rotating permanent-magnet (PM) machines have been inve...
The rotor and magnet loss in single-sided axial ux permanent magnet (AFPM) machines with non-overlap...
The performance and iron losses of an axial flux permanent-magnet synchronous machine (AFPMSM) using...
This study investigates an advanced finite-element (FE) technique for the evaluation of rotational i...
This article proposes a new hybrid analytical and numerical finite element (FE) based method for cal...
In this thesis, we develop a 3-D analytical model for the eddy current loss in the permanent magnet ...
grantor: University of TorontoThis thesis proposes a refined approach to evaluate iron los...
This paper presents a methodology for identifying a novel iron loss model and segregating the differ...
This paper deals with iron losses caused by fringing fluxes generated by the concentrated stator win...
This paper compares the iron losses generated by the concentrated excitation windings of an axial-fl...
This paper compares the iron losses generated by the concentrated excitation windings of an axial-fl...
This paper compares the iron losses generated by the concentrated excitation windings for the axial ...
Laminated media are intended to conduct the magnetic flux in the plane (high permeability and high e...
One potential problem associated with the high electrical frequency in high-speed electrical machine...
A closed-loop computer-controlled single-sheet test system has been developed to characterise lamin...
While methods of determining the iron loss in rotating permanent-magnet (PM) machines have been inve...
The rotor and magnet loss in single-sided axial ux permanent magnet (AFPM) machines with non-overlap...
The performance and iron losses of an axial flux permanent-magnet synchronous machine (AFPMSM) using...
This study investigates an advanced finite-element (FE) technique for the evaluation of rotational i...
This article proposes a new hybrid analytical and numerical finite element (FE) based method for cal...
In this thesis, we develop a 3-D analytical model for the eddy current loss in the permanent magnet ...
grantor: University of TorontoThis thesis proposes a refined approach to evaluate iron los...
This paper presents a methodology for identifying a novel iron loss model and segregating the differ...