userx2
Full Member level 3
Hello,
For a new design, I am looking at using an IP68 rated solid metal front keypad that operates on piezo technology.
The manufacturer does not want to disclose how it works but their keypads have a built in CPU.
The general theory so far is that piezo elements are mounted behind the metal panel and will have pressure applied when the panel deflects ever so slightly as a key is pressed.
I am just wondering how that can even work?
As far as I know, a piezo crystal becomes charged and thus outputs a voltage when pressure is applied. But that charge and voltage deplete rapidly and is measurable only as a little spike during the pressure increase.
Likewise, the voltage goes negative while the pressure is released again.
But any static pressure will not be measurable = 0V.
I personally cannot see any 100% way to reliably use that to detect presses, holds and releases. of buttons.
Perhaps someone else here knows more?
Best regards
X
For a new design, I am looking at using an IP68 rated solid metal front keypad that operates on piezo technology.
The manufacturer does not want to disclose how it works but their keypads have a built in CPU.
The general theory so far is that piezo elements are mounted behind the metal panel and will have pressure applied when the panel deflects ever so slightly as a key is pressed.
I am just wondering how that can even work?
As far as I know, a piezo crystal becomes charged and thus outputs a voltage when pressure is applied. But that charge and voltage deplete rapidly and is measurable only as a little spike during the pressure increase.
Likewise, the voltage goes negative while the pressure is released again.
But any static pressure will not be measurable = 0V.
I personally cannot see any 100% way to reliably use that to detect presses, holds and releases. of buttons.
Perhaps someone else here knows more?
Best regards
X
