Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
19 dic 2012, 07:33 GMT-5
Hi
have you read carefully the help of COMSOL ? at least in v4.3a it states:
"
Note:
For the AC source, the frequency is a global input set by the solver so do not use the Sine source unless the model is time dependent.
"
so it should be set to AC for a frequency domain and SINUS for a time domain study, at least that is how I read it, but so far I have never used CIR as active source, only as passive circuitry, so I haven't checked this ;)
--
Good luck
Ivar
Hi
have you read carefully the help of COMSOL ? at least in v4.3a it states:
"
Note:
For the AC source, the frequency is a global input set by the solver so do not use the Sine source unless the model is time dependent.
"
so it should be set to AC for a frequency domain and SINUS for a time domain study, at least that is how I read it, but so far I have never used CIR as active source, only as passive circuitry, so I haven't checked this ;)
--
Good luck
Ivar
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Posted:
1 decade ago
19 dic 2012, 08:26 GMT-5
Hi
Thanks Ivar, I tried defining an AC voltage source in the circuit
and still getting errors when trying to run in frequency domain.
David
Hi
Thanks Ivar, I tried defining an AC voltage source in the circuit
and still getting errors when trying to run in frequency domain.
David
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Posted:
1 decade ago
19 dic 2012, 11:28 GMT-5
Hi
The easiest way to check this problem is to open model 12695 (transient modelling of a capacitor in a circuit)
change the study to frequency domain and try to set the voltage source so that the model will work.
Hi
The easiest way to check this problem is to open model 12695 (transient modelling of a capacitor in a circuit)
change the study to frequency domain and try to set the voltage source so that the model will work.
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
19 dic 2012, 15:13 GMT-5
Hi
indeed if you add a frequency domain study, set the frequency to a range such as {50 100 200 400} Hz and select CIR voltage source to AC it does not converge, you get two flat lines insted of a nice converging display plot.
But then while lloking at the solver sequence I see its in segregated iterative moe, so I added a fully coupled node, and selected the "Direct" solver node and said Enable, then solved the model , and that worked nicely, you get complex I and V terminal values, no I havent checked the results, but they do not look too bad (worth an analyitcal check) so probably the ssue was the default solver settings not adequate for this model
--
Good luck
Ivar
Hi
indeed if you add a frequency domain study, set the frequency to a range such as {50 100 200 400} Hz and select CIR voltage source to AC it does not converge, you get two flat lines insted of a nice converging display plot.
But then while lloking at the solver sequence I see its in segregated iterative moe, so I added a fully coupled node, and selected the "Direct" solver node and said Enable, then solved the model , and that worked nicely, you get complex I and V terminal values, no I havent checked the results, but they do not look too bad (worth an analyitcal check) so probably the ssue was the default solver settings not adequate for this model
--
Good luck
Ivar
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Posted:
1 decade ago
19 dic 2012, 16:15 GMT-5
Hi
Regarding model 12695 I found that It's runs OK in frequency domain if I change the conductivity of air
from zero to one
David
Hi
Regarding model 12695 I found that It's runs OK in frequency domain if I change the conductivity of air
from zero to one
David
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
20 dic 2012, 01:36 GMT-5
Hi
indeed that is another issue, "0" conductivity is too little for current flow, and you get numerical underflows, anyhow "air" has a very small conductivity.
It would be interesting to compare the 1[S/m] conductivity results with the direct solving results
Indeed the results are quite different, as one should expect, from my understanding, but can you explain the differences ?
By the way it's sufficient to set the solver to "Fully coupled" (Direct is not required)
Try changing the conductivity of air 1, 1e-3 1e-6 [S/m] compared to the 1E-14[S/m] of the glass and see the differences of the current and voltage on the terminal, plot them for a frequency scan both real and imaginary (phase part)
--
Good luck
Ivar
Hi
indeed that is another issue, "0" conductivity is too little for current flow, and you get numerical underflows, anyhow "air" has a very small conductivity.
It would be interesting to compare the 1[S/m] conductivity results with the direct solving results
Indeed the results are quite different, as one should expect, from my understanding, but can you explain the differences ?
By the way it's sufficient to set the solver to "Fully coupled" (Direct is not required)
Try changing the conductivity of air 1, 1e-3 1e-6 [S/m] compared to the 1E-14[S/m] of the glass and see the differences of the current and voltage on the terminal, plot them for a frequency scan both real and imaginary (phase part)
--
Good luck
Ivar