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The 'penalty method' in the 'Pull-in of an RF MEMS switch' model
Posted 6 mar 2014, 08:31 GMT-5 5 Replies
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Any help is appreciated.Thanks in advance.
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Hello Senna
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Have you found a way?
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"In comsol 4.4 this model provides a very valuable method to calculate the pull-in time of an RF MEMS switch through transient analysis, but I'am a little confused about the parameter 'tn=5e5 pa'( input estimate of the contact force). How can I set the appropriate value of 'tn' to make sure 'the elastic stiffness and the contact force' has been correctly tuned?
Any help is appreciated.Thanks in advance."
Can u share with me..how to set appropriate value of 'tn'?
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A penalty method is an approximate way of computing contact, where a stiff spring is inserted between the contacting boundaries. If you do not supply the contact force (actually: contact pressure) estimate, then there will be an overlap between the contacting boundaries such that F_contact = k*d where k is the penalty stiffness and d is the overlap (= gap g with but with positive sign).
So in order to decrease the artificial overlap you should have a high penalty stiffness. But a too high penalty stiffness is detrimental to the numerics. A good starting point is to use something of the order E/h where E is the Young's modulus, and h is a characteristic element size in the contact region.
Adding a reasonable contact force estimate 'tn' will also decrease the overlap, since the contact force will then be computed as F_contact = k*d + tn, and that would reduce 'd'. But the contact force input is not necessary, it only improves the accuracy.
If you have no idea about what contact pressures to expect, try to do the analysis once with tn=0, and then look at the results. You can then enter the resulting contact pressure as input, and do a refined analysis.
Regards,
Henrik
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May i know how to determine 'h' (characteristic element size) in the PUll in Of an RF MEMS Switch model.Tq in advance
Regards
Fandi
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I have the same preoccupation as you for the estimation of the contact force. Did you find a method to calculate the characteristic element size (h)?
Regards,
Dorra