Comparaison Électromagnétique de deux Machines Polyphasées à Aimants : Application à la chaîne de traction de type Mild Hybrid.

International audienceLes auteurs comparent les performances électromagnétiques de deux machines polyphasées à aimants pour l'application Mild Hybrid. Cette comparaison a été effectuée à l'aide de simulations numériques en deux dimensions (2D). La meilleure machine a été déterminée à l'aide d'une étude énergétique (i.e., pertes, couples, rendement) selon un cahier des charges. Dans cette étude, le bobinage concentrique à double couches a été utilisé et la synthèse du bobinage est basée sur la méthode "des étoiles des encoches" et sur la décomposition en série de Fourier de la force magnétomotrice (FMM).</p

GENERAL CALCULATION OF WINDING FACTOR FOR MULTI-PHASE/-LAYER ELECTRICAL MACHINES IRRESPECTIVE OF POLES NUMBER

In this paper, a method to calculate the winding factor by only considering stator parameters without the rotor ones is developed. This is interesting because it allows the separation of the stator and rotor design, unlike the existing methods in the literature. A general method based on the matrix representation of a winding is presented. This approach requires the knowledge of four parameters : i) slots number, ii) phases number, iii) layers number, and iv) single-phase spatial distribution. A new feature of the multi-layer windings is introduced, it is called false-zero windings, which is divided into two categories: i) α-windings (i.e., odd false-zero windings), and ii) β-windings (i.e., even false-zero windings). The windings having no false-zero are categorized as γ-windings. The calculations are applied for single and multi-phase/-layer windings. The results of the comparison are satisfactory. The code used for the calculation is given in Appendix

Permanent-Magnet Eddy-Current Losses: A Global Revision of Calculation and Analysis

Eddy-current analysis is an important research field. This phenomenon occurs in multiple areas and has several applications: electromagnetic braking, repulsive effects, levitation, etc. Thereby, this paper is limited to eddy-current study in rotating electrical machines. In the design process, if the permanent-magnet (PM) loss calculation is very important, the overheating due to eddy-currents must be taken into account. The content of this paper includes sources, calculation methods, reduction techniques, and thermal analysis of PM eddy-current losses. This review aims to act as a guide for the reader to learn about the different aspects and points to consider in studying the eddy-current

Permanent-Magnet Eddy-Current Losses: A Global Revision of Calculation and Analysis

International audienceEddy-current analysis is an important research field. This phenomenon occurs in multiple areas and has several applications: electromagnetic braking, repulsive effects, levitation, etc. Thereby, this paper is limited to eddy-current study in rotating electrical machines. In the design process, if the permanent-magnet (PM) loss calculation is very important, the overheating due to eddy-currents must be taken into account. The content of this paper includes sources, calculation methods, reduction techniques, and thermal analysis of PM eddy-current losses. This review aims to act as a guide for the reader to learn about the different aspects and points to consider in studying the eddy-current

Investigation of Volumic Permanent-Magnet Eddy-Current Losses in Multi-Phase Synchronous Machines from Hybrid Multi-Layer Model

International audienceThis paper investigates the permanent-magnet (PM) eddy-current losses in multi-phase PM synchronous machines (PMSM) with concentric winding and surface-mounted PMs. A hybrid multi-layer model, combining a two-dimensional (2-D) generic magnetic equivalent circuit (MEC) with a 2-D analytical model based on the Maxwell–Fourier method (i.e., the formal resolution of Maxwell’s equations by using the separation of variables method and the Fourier’s series), performs the eddy-current loss calculations. First, the magnetic flux density was obtained from the 2-D generic MEC and then subjected to the Fast Fourier Transform (FFT). The semi-analytical model includes the automatic mesh of static/moving zones, the saturation effect and zones connection in accordance with rotor motion based on a new approach called “Air-gap sliding line technic”. The results of the hybrid multi-layer model were compared with those obtained by three-dimensional (3-D) nonlinear finite-element analysis (FEA). The PM eddy-current losses were estimated on different paths for different segmentations as follow: (i) one segment (no segmentation), (ii) five axial segments, and (iii) two circumferential segments, where the non-uniformity loss distribution is shown. The top of PMs presents a higher quantity of losses compared to the bottom

Electromagnetic Comparison of 3-, 5- and 7-phases Permanent-Magnet Synchronous Machines : Mild Hybrid Traction Application

International audienceAuthors compare the electromagnetic performances of three multi-phases permanent-magnet (PM) synchronous machines (PMSM) for Mild Hybridtraction application. This comparison was made using two-dimensional (2-D) numerical simulations in transient magnetic with eddy-current reaction field in the PMs. The best machine was determined using an energetic analysis (i.e., losses, torque and efficiency) according specifications. In this study, the non-overlapping winding with double layer (i.e. all teeth wound type) was used. The winding synthesis is based on the "Star of slots" method as well as the Fourier series decomposition of the magnetomotive force (MMF)

Automatic winding generation using matrix representation-anfractus tool 1.0

International audienceThis paper describes an original approach dealing with AC/DC winding design in electrical machines. A research software called “ANFRACTUS Tool 1.0”, allowing automatic generation of all windings in multi-phases electrical machines, has been developed using the matrix representation. Unlike existent methods, where the aim is to synthesize a winding with higher performances, the proposed method provides the opportunity to choose between all doable windings. The specificity of this approach is based on the fact that it take only the slots, phases and layers number as input parameters. The poles number is not requested to run the generation process. Windings generation by matrix representation may be applied for any number of slots, phases and layers. The software do not deal with the manner that coils are connected but just the emplacement of coils in each slot with its current sense. The waveform and the harmonic spectrum of the total magnetomotive force (MMF) are given as result

Comparaison Électromagnétique de deux Machines Polyphasées à Aimants : Application à la chaîne de traction de type Mild Hybrid

International audienceLes auteurs comparent les performances électromagnétiques de deux machines polyphasées à aimants pour l'application Mild Hybrid. Cette comparaison a été effectuée à l'aide de simulations numériques en deux dimensions (2D). La meilleure machine a été déterminée à l'aide d'une étude énergétique (i.e., pertes, couples, rendement) selon un cahier des charges. Dans cette étude, le bobinage concentrique à double couches a été utilisé et la synthèse du bobinage est basée sur la méthode "des étoiles des encoches" et sur la décomposition en série de Fourier de la force magnétomotrice (FMM)