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Posted:
1 decade ago
7 lug 2010, 16:34 GMT-4
Maybe you can upload your mph file. I think it is easy to add a surface current density boundary condition in Comsol4.0.
Maybe you can upload your mph file. I think it is easy to add a surface current density boundary condition in Comsol4.0.
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Posted:
1 decade ago
7 lug 2010, 16:40 GMT-4
Maybe you can upload your mph file. I think it is easy to add a surface current density boundary condition in Comsol4.0.
Hi Jie,
Attached is the model file. Currently I just simply add voltage potential and ground to two terminals. But I would like to add a constant current to the model. I've got no idea how.
Thanks,
Li
[QUOTE]
Maybe you can upload your mph file. I think it is easy to add a surface current density boundary condition in Comsol4.0.
[/QUOTE]
Hi Jie,
Attached is the model file. Currently I just simply add voltage potential and ground to two terminals. But I would like to add a constant current to the model. I've got no idea how.
Thanks,
Li
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
10 lug 2010, 14:10 GMT-4
Hi
I have only my V4.0a available so I cannot read your 3.3 file. But I do not catch the full issue, you you have a conductor surface of lets say 2[mm^2] and you want to force a current of 10[A] then you have a current density of 10/2=5[A/mm^2] no ?
If you impose a voltage you need to adapt it depending on the impedance to get a constant current, though. That is what COMSOL is proposing for the "coil domain" boundary conditions.
You can have COMSOL to caluate the surfaces or the length with the Coupling inte3gration variables (_int of "1")
Good luck
Ivar
Hi
I have only my V4.0a available so I cannot read your 3.3 file. But I do not catch the full issue, you you have a conductor surface of lets say 2[mm^2] and you want to force a current of 10[A] then you have a current density of 10/2=5[A/mm^2] no ?
If you impose a voltage you need to adapt it depending on the impedance to get a constant current, though. That is what COMSOL is proposing for the "coil domain" boundary conditions.
You can have COMSOL to caluate the surfaces or the length with the Coupling inte3gration variables (_int of "1")
Good luck
Ivar
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Posted:
1 decade ago
11 lug 2010, 00:12 GMT-4
Thanks, Ivar,
I solved the problem this way.
Li
Thanks, Ivar,
I solved the problem this way.
Li