Calculating an electromechanical torque of a squirrel cage motor based on an axial flux obtained by the FEM

Calculating an electromechanical torque of a squirrel cage motor based on an axial flux obtained by the FEM

This article presents a method of calculating an axial flux signal and how to use this signal to determine an electromagnetic torque for a squirrel cage induction motor in a steady state. Numerical analyses were performed using a two-dimensional field-circuit model for the squirrel cage induction mo...

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Main Authors: Petryna Janusz, Tulicki Jarosław, Sułowicz Maciej
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:ITM Web of Conferences
Online Access:https://doi.org/10.1051/itmconf/20171505004
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spelling doaj-646d1e0919234c71bbc857fe25b514442021-02-02T03:45:57ZengEDP SciencesITM Web of Conferences2271-20972017-01-01150500410.1051/itmconf/20171505004itmconf_cmes-17_05004Calculating an electromechanical torque of a squirrel cage motor based on an axial flux obtained by the FEMPetryna JanuszTulicki JarosławSułowicz MaciejThis article presents a method of calculating an axial flux signal and how to use this signal to determine an electromagnetic torque for a squirrel cage induction motor in a steady state. Numerical analyses were performed using a two-dimensional field-circuit model for the squirrel cage induction motor. Most of analyses were performed for a symmetric motor and to estimate a magnitude of the electromagnetic torque, an algorithm was developed. The electromagnetic torque estimation method proposed in the article is easy to implement and does not require any interference into the drive system transmission. The analysis shows that it is possible for the induction motor to determine a load torque based on the axial flux measurement using a measuring coil applied to the motor, for example from the fan side.https://doi.org/10.1051/itmconf/20171505004
collection DOAJ
language English
format Article
sources DOAJ
author Petryna Janusz
Tulicki Jarosław
Sułowicz Maciej
spellingShingle Petryna Janusz
Tulicki Jarosław
Sułowicz Maciej
Calculating an electromechanical torque of a squirrel cage motor based on an axial flux obtained by the FEM
ITM Web of Conferences
author_facet Petryna Janusz
Tulicki Jarosław
Sułowicz Maciej
author_sort Petryna Janusz
title Calculating an electromechanical torque of a squirrel cage motor based on an axial flux obtained by the FEM
title_short Calculating an electromechanical torque of a squirrel cage motor based on an axial flux obtained by the FEM
title_full Calculating an electromechanical torque of a squirrel cage motor based on an axial flux obtained by the FEM
title_fullStr Calculating an electromechanical torque of a squirrel cage motor based on an axial flux obtained by the FEM
title_full_unstemmed Calculating an electromechanical torque of a squirrel cage motor based on an axial flux obtained by the FEM
title_sort calculating an electromechanical torque of a squirrel cage motor based on an axial flux obtained by the fem
publisher EDP Sciences
series ITM Web of Conferences
issn 2271-2097
publishDate 2017-01-01
description This article presents a method of calculating an axial flux signal and how to use this signal to determine an electromagnetic torque for a squirrel cage induction motor in a steady state. Numerical analyses were performed using a two-dimensional field-circuit model for the squirrel cage induction motor. Most of analyses were performed for a symmetric motor and to estimate a magnitude of the electromagnetic torque, an algorithm was developed. The electromagnetic torque estimation method proposed in the article is easy to implement and does not require any interference into the drive system transmission. The analysis shows that it is possible for the induction motor to determine a load torque based on the axial flux measurement using a measuring coil applied to the motor, for example from the fan side.
url https://doi.org/10.1051/itmconf/20171505004
work_keys_str_mv AT petrynajanusz calculatinganelectromechanicaltorqueofasquirrelcagemotorbasedonanaxialfluxobtainedbythefem
AT tulickijarosław calculatinganelectromechanicaltorqueofasquirrelcagemotorbasedonanaxialfluxobtainedbythefem
AT sułowiczmaciej calculatinganelectromechanicaltorqueofasquirrelcagemotorbasedonanaxialfluxobtainedbythefem
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