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Re: Electro-mechanical properties and diaphragm motion [message #53437 is a reply to message #53434] Sat, 18 April 2009 06:09 Go to previous messageGo to previous message
adamzuf is currently offline  adamzuf
Messages: 10
Registered: May 2009
Chancellor
Wayne,
Thank you for such a detailed answer.

"Electrical damping is almost always an order of magnitude greater than mechanical damping"

Sorry I don't understand the expression (English ain't my first language)

"The difference is that in the pistonic range, the forces required to bend the diaphragm are small enough that it operates as a rigid piston. "
Is that because higher frequencies are smaller to "fit" into the diaphragm and push it into the non pistonic range? (smaller driver = higher frequency of cone breakup)

"usually if the cone is made stiffer, it tends to breakup later but harder."
I assume you meen "higher in frequency?"

So, as I gather from what you are saying, the damping of the system loses control over the cone's independant motions, and one can not tell from thiele/small parameters the properties of the non pistonic range at all..?

This is great info. Thank you.
Adam

 
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