Electrical machines with 3D magnetic flux are one option, to increase power and torque density compared to conventional machines. One of these machines is the transverse flux machine which offers high torque at low speeds. However, due to material or geometric limitations, these machines have not been widely implemented thus far. The development of additive manufacturing in the field of soft magnetic materials has opened up new possibilities for the transverse flux machine. This paper presents, how the newly available materials and the integration of air slots in an existing stator open up new potentials for the transverse flux machine, mainly by reducing eddy currents. Here, a sensitivity analysis shows the influence of the slots on the machine performance. By selecting the best slot parameters, a significant increase in performance compared to the original machine can be achieved at a comparable efficiency.
2022 International Conference on Electrical Machines (ICEM)
year
2022
pages
1491--1497
file
Schmid Martin, Terfurth Jonathan et al. 2022 - Electromagnetic Design of Electrical Machines:S\:\\Mitarbeiter\\01_Bibliothek\\01_Literatur\\Citavi Attachments\\Schmid Martin, Terfurth Jonathan et al. 2022 - Electromagnetic Design of Electrical Machines.pdf:pdf
%0 Conference Paper
%1 SchmidMartin.2022.ElectromagneticDesignofElectrical
%A Schmid Martin,
%A Terfurth Jonathan,
%A Kaiser Kim,
%A Parspour Nejila,
%B 2022 International Conference on Electrical Machines (ICEM)
%D 2022
%K Additive Analysis, Current Eddy Electric Flux Losses, Machine Machines, Magnetic Manufacturing, Materials, Sensitivity Soft Transverse hp_iew
%P 1491--1497
%R 10.1109/ICEM51905.2022.9910628
%T Electromagnetic Design of Electrical Machines - New Potentials of Additive Manufacturing with the Example of the Transverse Flux Machine
%X Electrical machines with 3D magnetic flux are one option, to increase power and torque density compared to conventional machines. One of these machines is the transverse flux machine which offers high torque at low speeds. However, due to material or geometric limitations, these machines have not been widely implemented thus far. The development of additive manufacturing in the field of soft magnetic materials has opened up new possibilities for the transverse flux machine. This paper presents, how the newly available materials and the integration of air slots in an existing stator open up new potentials for the transverse flux machine, mainly by reducing eddy currents. Here, a sensitivity analysis shows the influence of the slots on the machine performance. By selecting the best slot parameters, a significant increase in performance compared to the original machine can be achieved at a comparable efficiency.
@inproceedings{SchmidMartin.2022.ElectromagneticDesignofElectrical,
abstract = {Electrical machines with 3D magnetic flux are one option, to increase power and torque density compared to conventional machines. One of these machines is the transverse flux machine which offers high torque at low speeds. However, due to material or geometric limitations, these machines have not been widely implemented thus far. The development of additive manufacturing in the field of soft magnetic materials has opened up new possibilities for the transverse flux machine. This paper presents, how the newly available materials and the integration of air slots in an existing stator open up new potentials for the transverse flux machine, mainly by reducing eddy currents. Here, a sensitivity analysis shows the influence of the slots on the machine performance. By selecting the best slot parameters, a significant increase in performance compared to the original machine can be achieved at a comparable efficiency.},
added-at = {2022-10-27T13:25:26.000+0200},
author = {{Schmid Martin} and {Terfurth Jonathan} and {Kaiser Kim} and {Parspour Nejila}},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2069b543762e32db30e70e22be811e00a/iew_homepage},
booktitle = {2022 International Conference on Electrical Machines (ICEM)},
doi = {10.1109/ICEM51905.2022.9910628},
file = {Schmid Martin, Terfurth Jonathan et al. 2022 - Electromagnetic Design of Electrical Machines:S\:\\Mitarbeiter\\01_Bibliothek\\01_Literatur\\Citavi Attachments\\Schmid Martin, Terfurth Jonathan et al. 2022 - Electromagnetic Design of Electrical Machines.pdf:pdf},
interhash = {19067a43c6252ef48d0edc21a7a54666},
intrahash = {069b543762e32db30e70e22be811e00a},
keywords = {Additive Analysis, Current Eddy Electric Flux Losses, Machine Machines, Magnetic Manufacturing, Materials, Sensitivity Soft Transverse hp_iew},
pages = {1491--1497},
timestamp = {2022-10-27T11:30:50.000+0200},
title = {Electromagnetic Design of Electrical Machines - New Potentials of Additive Manufacturing with the Example of the Transverse Flux Machine},
year = 2022
}