The paper introduces an analytical approach to predict the no-load flux density spatial repartition of inner permanent magnet tubular-linear synchronous machines (IPM T-LSMs). It considers a trapezoidal waveform whose maximum value is predicted using a simple magnetic equivalent circuit of an elementary part of the machine. Then, the accuracy of the proposed approach is enhanced by the incorporation of a mover permeance function that accounts for the PM luxconcentrating arrangement.
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[1] Amal Souissi, Imen Abdennadher, Ahmed Masmoudi,
"An Approach to Predict IPM T-LSMs Air Gap Flux Density: Application to the Mover Geometry Sizing",
IEEE Dataport,
2020. [Online]. Available: http://dx.doi.org/10.21227/d5sy-0z72. Accessed: Dec. 21, 2024.
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doi = {10.21227/d5sy-0z72},
url = {http://dx.doi.org/10.21227/d5sy-0z72},
author = {Amal Souissi; Imen Abdennadher; Ahmed Masmoudi },
publisher = {IEEE Dataport},
title = {An Approach to Predict IPM T-LSMs Air Gap Flux Density: Application to the Mover Geometry Sizing},
year = {2020} }
doi = {10.21227/d5sy-0z72},
url = {http://dx.doi.org/10.21227/d5sy-0z72},
author = {Amal Souissi; Imen Abdennadher; Ahmed Masmoudi },
publisher = {IEEE Dataport},
title = {An Approach to Predict IPM T-LSMs Air Gap Flux Density: Application to the Mover Geometry Sizing},
year = {2020} }
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T1 - An Approach to Predict IPM T-LSMs Air Gap Flux Density: Application to the Mover Geometry Sizing
AU - Amal Souissi; Imen Abdennadher; Ahmed Masmoudi
PY - 2020
PB - IEEE Dataport
UR - 10.21227/d5sy-0z72
ER -
T1 - An Approach to Predict IPM T-LSMs Air Gap Flux Density: Application to the Mover Geometry Sizing
AU - Amal Souissi; Imen Abdennadher; Ahmed Masmoudi
PY - 2020
PB - IEEE Dataport
UR - 10.21227/d5sy-0z72
ER -
Amal Souissi, Imen Abdennadher, Ahmed Masmoudi.
(2020).
An Approach to Predict IPM T-LSMs Air Gap Flux Density: Application to the Mover Geometry Sizing.
IEEE Dataport.
http://dx.doi.org/10.21227/d5sy-0z72
Amal Souissi, Imen Abdennadher, Ahmed Masmoudi,
2020.
An Approach to Predict IPM T-LSMs Air Gap Flux Density: Application to the Mover Geometry Sizing.
Available at:
http://dx.doi.org/10.21227/d5sy-0z72.
Amal Souissi, Imen Abdennadher, Ahmed Masmoudi.
(2020).
"An Approach to Predict IPM T-LSMs Air Gap Flux Density: Application to the Mover Geometry Sizing."
Web.
1. Amal Souissi, Imen Abdennadher, Ahmed Masmoudi.
An Approach to Predict IPM T-LSMs Air Gap Flux Density: Application to the Mover Geometry Sizing [Internet].
IEEE Dataport; 2020.
Available from :
http://dx.doi.org/10.21227/d5sy-0z72
Amal Souissi, Imen Abdennadher, Ahmed Masmoudi.
"An Approach to Predict IPM T-LSMs Air Gap Flux Density: Application to the Mover Geometry Sizing."
doi:
10.21227/d5sy-0z72