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MEMS Microphone
Posted 2011年4月27日 GMT-4 17:23 10 Replies
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Is it possible to develop the 3D model of a microphone Silicon Membrane with Aluminium on both sides?
Regards
Sanjay
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that is a challenging task, in any of the two programmes. For me ANSYS is the engineering tool, while COMSOL is first of all the physicist tool, the one with the best potential to do complex things and to really understand what you are doing. No black boxes. But as both allows many physics, there are quite some aspects to learn.
For your case, the most important is to analyse your model on a peace of paper before you start with a programming tool. Describe the geometry, the interfaces, the physics needed: structural, sound/acoustic, electric ? ... Then define all your boundary conditions required, for each of the physics.
Then start to model your device one physics at a time, I would start with the structure, possibly load it with a pressure to check that it deflects, then add acoustics (or electric if needed) etc
With COMSOL there are many examples in the "model library, its worth to study a few related ones carefully to grab the essentials
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Good luck
Ivar
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For my 1st Step, i have to develop a closed rectangular plate silicon membrane with side lengths 1mm x 1mm and Membrane thickness of 10 x10^ (-6) m
Could you please tell me where to start and where to look for examples.
Regards
Sanjay
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Interestingly, I was working on the same subject of modeling MEMS acoustic sensor/microphone today, using the acoustic module from COMSOL.
Overall, it is easy to model the cavity inside the microphone, the challenge remains at modeling the sensor, where there is a very thin perforated backplate, a very thin diaphragm, and a very thin air gap. I think the issues here are: (1) how to model the thin structures of um-level? (2) what type of boundary condition to assign to the diaphragm? (3) how to generate mesh around these thin domains?
Any examples available?
Best regards,
Weiwen
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with a plate ratio 1:100 you are about at the limit where 3D "shell" physics becomes interesting.
If you have a powerful PC with plenty of RAM (i.e. >>8Gb) then 3D "solid" structural with a fine mesh could do, but you need at least 3-5 elements in the thickness, and then the elements should ideally be about same shape ratio hence at least 300*300*3 = 270'000 elements, with 1.4*number of dependent variables (=3-6) of DoF per element => 1.2 MDof. Yes you need more than >16Gb RAM for that (double precision floating point).
Conclusion it's worth starting in 2D or with shell physics ;)
I agree no direct close example, 1) check the videos on the main COMSOL site 2) but to understand eigenfrequency analysis, try the Model Library - Multiphyiscs - Tuning fork, (for later Joules heating with structural deformation (3 physics electric, thermal + structural the "thermal_actutor _kh_distributed, then you could try to port this example to 3D shell elements instead of 3D solid structural
Thereafter try a few examples in the acoustic (if you have that option), there are two in the main Multiphysics chapter for all users
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Good luck
Ivar
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I was also expecting answer from you for my question. Like i had mentioned earlier, am a beginner and the First task for my Project would be
To develop a closed rectangular plate silicon membrane with side lengths 1mm x 1mm and Membrane thickness of 10 x10^ (-6) m
Could you please tell me where to start and where to look for examples.
Regards
Sanjay
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Regards
Sanjay
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The other issues are the boundary conditions assigned to the sensor, in particular, the diaphragm is a vibrating thin layer that needs to be properly modeled.
I am not sure there is anything directly similar from COMSOL. In other words, count on myself. This is fun!
Weiwen
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I would recommend using 2D axi-symmetry, if possible in the model. This would simplify your analysis significantly. However, if you do need to model 3D, then you might have to define the mesh parameters rather than using Comsol's auto-mesh. The existing loudspeaker models are a good place to begin with. These will help you get familiar with the boundary conditions and settings required for acoustic-structural interaction problems.
Hope this helps.
Mihir
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Somehow i have managed to create a model using your examples. Can you please check if the approach is right and i have three parameters s,d, p in the global parameters. I have made a parametric sweep for d and is it possible to display all the results simultaneously
Thanks and Regards
Sanjay
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