This paper investigates the influence of finite-element (FE) mesh when computing eddy currents in magnets of a permanent-magnet synchronous machine excited with pulsating currents (such as pulse-width modulation). 3D computations with globally and locally varying mesh densities are performed and results are compared with a reference (fine-mesh) case. It turns out that a global increase of mesh density has the most important impact on the result accuracy. The accuracy of 2D FE computations is also discussed for different stack lengths. It is shown that the use of a correction factor based on analytical approach can significantly increase accuracy for relatively short stack lengths.status: publishe
This paper proposes an analytical method, based on the generalized image theory, for accurate predic...
This paper presents a novel analytical technique for predicting 3-dimensional (3D) magnet eddy curre...
In this thesis, we develop a 3-D analytical model for the eddy current loss in the permanent magnet ...
This paper investigates the influence of finite-element (FE) mesh when computing eddy currents in ma...
International audienceFor high-speed machines applications, eddy-current losses in the interior perm...
Algorithm for evaluating eddy current losses in surface-mounted permanent magnets situated in synchr...
International audienceThis paper describes a 3-D numerical hybrid method (NHM) of the permanent-magn...
International audienceThe authors present a general computation of the time-varying magnetic flux de...
This paper proposes a computationally efficient method, for accurate prediction of 3-dimensional (3D...
This paper proposes a computationally efficient method based on imaging technique, for accurate pred...
This study proposes a computationally efficient analytical method, for accurate prediction of three-...
Abstract. This paper presents an efficient method for eddy current analysis in permanent magnets (PM...
International audienceRare earth permanentmagnet synchronousmachines with the pulsewidth modulated s...
Le travail présenté dans cette thèse s’inscrit dans le cadre de différents programmes de recherches ...
International audienceThis paper investigates the permanent-magnet (PM) eddy-current losses in multi...
This paper proposes an analytical method, based on the generalized image theory, for accurate predic...
This paper presents a novel analytical technique for predicting 3-dimensional (3D) magnet eddy curre...
In this thesis, we develop a 3-D analytical model for the eddy current loss in the permanent magnet ...
This paper investigates the influence of finite-element (FE) mesh when computing eddy currents in ma...
International audienceFor high-speed machines applications, eddy-current losses in the interior perm...
Algorithm for evaluating eddy current losses in surface-mounted permanent magnets situated in synchr...
International audienceThis paper describes a 3-D numerical hybrid method (NHM) of the permanent-magn...
International audienceThe authors present a general computation of the time-varying magnetic flux de...
This paper proposes a computationally efficient method, for accurate prediction of 3-dimensional (3D...
This paper proposes a computationally efficient method based on imaging technique, for accurate pred...
This study proposes a computationally efficient analytical method, for accurate prediction of three-...
Abstract. This paper presents an efficient method for eddy current analysis in permanent magnets (PM...
International audienceRare earth permanentmagnet synchronousmachines with the pulsewidth modulated s...
Le travail présenté dans cette thèse s’inscrit dans le cadre de différents programmes de recherches ...
International audienceThis paper investigates the permanent-magnet (PM) eddy-current losses in multi...
This paper proposes an analytical method, based on the generalized image theory, for accurate predic...
This paper presents a novel analytical technique for predicting 3-dimensional (3D) magnet eddy curre...
In this thesis, we develop a 3-D analytical model for the eddy current loss in the permanent magnet ...