Permanent magnet (PM) materials are nowa- days widely used in the electrical machine manufacturing industry. The eddy-current loss models of PMs used in electrical machines are frequently discussed in research papers. In magnetic steel materials we have, in addition to eddy-current losses, there are hysteresis losses when alter- nating current or a rotating flux travels through the material. Should a similar phenomenon be also taken into account in calculating the losses of PMs? Every now and then, authors seem to assume that some significant hysteresis losses are present in rotating machine PMs. This paper studies the mechanisms of possible hysteresis losses in PMs and their role in PMs when used in r...
Abstract. The efficiency of electrical machines depends among other things on the specific total los...
Sintered Nd–Fe–B magnets are exposed to AC magnetic fields in many applications, e.g. in permanent m...
An accurate estimation of losses in magnetic materials is important for the design of electromagneti...
Abstract — Permanent magnet materials are nowadays widely used in the electrical machine manufacturi...
Most permanent magnet (PM) loss studies consider only eddy current loss and neglect hysteresis. In t...
NdFeB sintered magnets are widely used in rotating electrical machines. In order to develop an effic...
This paper investigates the interdependence of hysteresis and eddy-current losses in magnetic cores....
The paper presents a study of the influence of magnetic hysteresis on macroscopic eddy current losse...
This thesis presents a study on core loss calculations in rotating electrical machines. The basic co...
The loss mechanisms associated with magnetic bearings have yet to be adequately characterized or mod...
Sintered Nd-Fe-B magnets are exposed to AC magnetic fields in many applications, e.g. in permanent m...
This paper relates to the measurement and the modeling of iron losses in electric machines by studyi...
When studying transients in pulsed current traction motors, it is important to take into considerati...
International audiencethis paper studies magnet eddy-current losses in permanent magnet (PM) machine...
In this paper, the different temperature dependencies of hysteresis and eddy current losses of non-o...
Abstract. The efficiency of electrical machines depends among other things on the specific total los...
Sintered Nd–Fe–B magnets are exposed to AC magnetic fields in many applications, e.g. in permanent m...
An accurate estimation of losses in magnetic materials is important for the design of electromagneti...
Abstract — Permanent magnet materials are nowadays widely used in the electrical machine manufacturi...
Most permanent magnet (PM) loss studies consider only eddy current loss and neglect hysteresis. In t...
NdFeB sintered magnets are widely used in rotating electrical machines. In order to develop an effic...
This paper investigates the interdependence of hysteresis and eddy-current losses in magnetic cores....
The paper presents a study of the influence of magnetic hysteresis on macroscopic eddy current losse...
This thesis presents a study on core loss calculations in rotating electrical machines. The basic co...
The loss mechanisms associated with magnetic bearings have yet to be adequately characterized or mod...
Sintered Nd-Fe-B magnets are exposed to AC magnetic fields in many applications, e.g. in permanent m...
This paper relates to the measurement and the modeling of iron losses in electric machines by studyi...
When studying transients in pulsed current traction motors, it is important to take into considerati...
International audiencethis paper studies magnet eddy-current losses in permanent magnet (PM) machine...
In this paper, the different temperature dependencies of hysteresis and eddy current losses of non-o...
Abstract. The efficiency of electrical machines depends among other things on the specific total los...
Sintered Nd–Fe–B magnets are exposed to AC magnetic fields in many applications, e.g. in permanent m...
An accurate estimation of losses in magnetic materials is important for the design of electromagneti...