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Posted:
1 decade ago
7 giu 2011, 06:57 GMT-4
Hi,
i assume you are using 4.1.
you have a big issues there, i think.
the materials are not completly defined. you have a huge permanent magnet on the stator. Br = 0.84[T]*x/sqrt(x^2+y^2) should enough.
the external current denstiy should be time-dependent, like I*cos(omega*t)
try to learn 2D generator from modell library.
good luck
regards
akmal
Hi,
i assume you are using 4.1.
you have a big issues there, i think.
the materials are not completly defined. you have a huge permanent magnet on the stator. Br = 0.84[T]*x/sqrt(x^2+y^2) should enough.
the external current denstiy should be time-dependent, like I*cos(omega*t)
try to learn 2D generator from modell library.
good luck
regards
akmal
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Posted:
1 decade ago
7 giu 2011, 09:11 GMT-4
Thanks a lot.
I am actually using version 4.0. When I change the external current density to be time dependent it states that there is an unexpected unit of input.
Also all I see is a generator_3D in the model library.
Thanks a lot.
I am actually using version 4.0. When I change the external current density to be time dependent it states that there is an unexpected unit of input.
Also all I see is a generator_3D in the model library.
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Posted:
1 decade ago
7 giu 2011, 09:37 GMT-4
Thanks a lot.
I am actually using version 4.0. When I change the external current density to be time dependent it states that there is an unexpected unit of input.
Also all I see is a generator_3D in the model library.
Thanks a lot.
I am actually using version 4.0. When I change the external current density to be time dependent it states that there is an unexpected unit of input.
Also all I see is a generator_3D in the model library.
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Posted:
1 decade ago
7 giu 2011, 14:40 GMT-4
Hi N Far,
We've also been working on a permanent magnet synchronous motor. Maybe you can use something of the model we made and have just posted on this forum. It's been made in Comsol 4.1, though. It can be found in
www.comsol.com/community/forums/general/thread/19133/
We've used the multiple turn coil domain and it takes care of some of the coil characteristics. Also you might be able to reduce the size of your model by simulating just a small part, using the symmetric boundary conditions.
Kind regards,
Onno Postma
Hi N Far,
We've also been working on a permanent magnet synchronous motor. Maybe you can use something of the model we made and have just posted on this forum. It's been made in Comsol 4.1, though. It can be found in http://www.comsol.com/community/forums/general/thread/19133/
We've used the multiple turn coil domain and it takes care of some of the coil characteristics. Also you might be able to reduce the size of your model by simulating just a small part, using the symmetric boundary conditions.
Kind regards,
Onno Postma
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Posted:
1 decade ago
9 mag 2014, 06:31 GMT-4
I came accross a very interesting website with more info on this product: http://www.directindustry.com/industrial-manufacturer/synchronous-motor-60998.html