Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
1 nov. 2011, 04:11 UTC−4
Hi
the ports are to be placed where you enter the energy, typically on a conductor entry (probably in the central lateral block side in your case.
But what puzzles me more, I'm not RF specialist, but still for me one need to model also some surrounding "vacuum" to be sure the fields can loop freely around. In EM the field propagate everywhere and you need to describe this too. So I would surround your region by a cube or a sphere (and consider layers + infinite elements to keep the volume small) or possibly consider some symmetry boundaries to further reduce the model size if you have RAM problems. RF require a lot of elements to catch the short wavelength.
In certain cases you can also replace a large volume by some clever boundary conditions, nt sre it's possible n your case.
--
Good luck
Ivar
Hi
the ports are to be placed where you enter the energy, typically on a conductor entry (probably in the central lateral block side in your case.
But what puzzles me more, I'm not RF specialist, but still for me one need to model also some surrounding "vacuum" to be sure the fields can loop freely around. In EM the field propagate everywhere and you need to describe this too. So I would surround your region by a cube or a sphere (and consider layers + infinite elements to keep the volume small) or possibly consider some symmetry boundaries to further reduce the model size if you have RAM problems. RF require a lot of elements to catch the short wavelength.
In certain cases you can also replace a large volume by some clever boundary conditions, nt sre it's possible n your case.
--
Good luck
Ivar
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
1 nov. 2011, 13:16 UTC−4
Hi
the ports are to be placed where you enter the energy, typically on a conductor entry (probably in the central lateral block side in your case.
But what puzzles me more, I'm not RF specialist, but still for me one need to model also some surrounding "vacuum" to be sure the fields can loop freely around. In EM the field propagate everywhere and you need to describe this too. So I would surround your region by a cube or a sphere (and consider layers + infinite elements to keep the volume small) or possibly consider some symmetry boundaries to further reduce the model size if you have RAM problems. RF require a lot of elements to catch the short wavelength.
In certain cases you can also replace a large volume by some clever boundary conditions, nt sre it's possible n your case.
--
Good luck
Ivar
Hi
thanks a lot for your reply.
I will definitely surround it with air.
Assigning the port is an issue. Lumped port needs to be connected between perfect electric conductors.
As per your suggestion if i chose the central lateral block placed on the dielectric then it shows an error in comsol.
Is there any other port condition that i can use ?
Regard
Glen
[QUOTE]
Hi
the ports are to be placed where you enter the energy, typically on a conductor entry (probably in the central lateral block side in your case.
But what puzzles me more, I'm not RF specialist, but still for me one need to model also some surrounding "vacuum" to be sure the fields can loop freely around. In EM the field propagate everywhere and you need to describe this too. So I would surround your region by a cube or a sphere (and consider layers + infinite elements to keep the volume small) or possibly consider some symmetry boundaries to further reduce the model size if you have RAM problems. RF require a lot of elements to catch the short wavelength.
In certain cases you can also replace a large volume by some clever boundary conditions, nt sre it's possible n your case.
--
Good luck
Ivar
[/QUOTE]
Hi
thanks a lot for your reply.
I will definitely surround it with air.
Assigning the port is an issue. Lumped port needs to be connected between perfect electric conductors.
As per your suggestion if i chose the central lateral block placed on the dielectric then it shows an error in comsol.
Is there any other port condition that i can use ?
Regard
Glen
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
1 nov. 2011, 14:48 UTC−4
Hi
you can only assign a port on a boundary of a domain included in your physics, you have NOT included the metal parts ;)
--
Good luck
Ivar
Hi
you can only assign a port on a boundary of a domain included in your physics, you have NOT included the metal parts ;)
--
Good luck
Ivar