Edgar J. Kaiser
Certified Consultant
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Posted:
1 decade ago
25 juin 2013, 12:06 UTC−4
Khalid,
a square is not axially symmetric. Just as simple as that! It is not possible to mix 2Daxial and 2Dplanar symmetry. If you need that you have to use 3D.
Cheers
Edgar
--
Edgar J. Kaiser
www.emphys.com
Khalid,
a square is not axially symmetric. Just as simple as that! It is not possible to mix 2Daxial and 2Dplanar symmetry. If you need that you have to use 3D.
Cheers
Edgar
--
Edgar J. Kaiser
http://www.emphys.com
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
25 juin 2013, 14:10 UTC−4
Khalid,
a square is not axially symmetric. Just as simple as that! It is not possible to mix 2Daxial and 2Dplanar symmetry. If you need that you have to use 3D.
Cheers
Edgar
--
Edgar J. Kaiser
www.emphys.com
Thanks Edgar for your answer. I have convergence issues with my 3D model and sometimes my RAM is not enough, I have 16 GB of RAM. Apart from 3D I cann't work around this issue?
[QUOTE]
Khalid,
a square is not axially symmetric. Just as simple as that! It is not possible to mix 2Daxial and 2Dplanar symmetry. If you need that you have to use 3D.
Cheers
Edgar
--
Edgar J. Kaiser
http://www.emphys.com
[/QUOTE]
Thanks Edgar for your answer. I have convergence issues with my 3D model and sometimes my RAM is not enough, I have 16 GB of RAM. Apart from 3D I cann't work around this issue?
Edgar J. Kaiser
Certified Consultant
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
26 juin 2013, 04:24 UTC−4
Khalid,
in 3D you could try to model only a quadrant of the square and use symmetry BCs to save memory. If you don't need to resolve the inside of the metal (skin effect) you can use impedance BC at the metal surfaces to avoid messhing the inside of the metal parts.
In 2Daxial you can only try to replace the square by a disc.
Cheers
Edgar
--
Edgar J. Kaiser
www.emphys.com
Khalid,
in 3D you could try to model only a quadrant of the square and use symmetry BCs to save memory. If you don't need to resolve the inside of the metal (skin effect) you can use impedance BC at the metal surfaces to avoid messhing the inside of the metal parts.
In 2Daxial you can only try to replace the square by a disc.
Cheers
Edgar
--
Edgar J. Kaiser
http://www.emphys.com
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
27 juin 2013, 05:32 UTC−4
Khalid,
in 3D you could try to model only a quadrant of the square and use symmetry BCs to save memory. If you don't need to resolve the inside of the metal (skin effect) you can use impedance BC at the metal surfaces to avoid messhing the inside of the metal parts.
In 2Daxial you can only try to replace the square by a disc.
Cheers
Edgar
--
Edgar J. Kaiser
www.emphys.com
Thanks for your answer. Now I am building 1/4 of the model in 3D to save computational time but all the parameters associated with the model will be four times?As I am calculating mutual, self inductances and losses in the ferrites.
[QUOTE]
Khalid,
in 3D you could try to model only a quadrant of the square and use symmetry BCs to save memory. If you don't need to resolve the inside of the metal (skin effect) you can use impedance BC at the metal surfaces to avoid messhing the inside of the metal parts.
In 2Daxial you can only try to replace the square by a disc.
Cheers
Edgar
--
Edgar J. Kaiser
http://www.emphys.com
[/QUOTE]
Thanks for your answer. Now I am building 1/4 of the model in 3D to save computational time but all the parameters associated with the model will be four times?As I am calculating mutual, self inductances and losses in the ferrites.