I would argue that there is NO hysteresis. You mention that you can depress it further past the actuation point, which is absolutely irrelevant. Hysteresis would be the difference in point of activation and deactivation which would be zero in a rubberdome, no? If you press it 2mm, and it activates after 1mm, then release it and it deactivates after 1mm, then the two points coincide and it doesn't matter that you can depress it past the activation point (1mm in this case).
Actually, I think you are absolutely correct about that. I'm not sure what I was thinking, other than that the behaviour described seems to be more of a less-effective debounce than hysteresis.
@TP4: I don;t think that debounce + repeat delay timing = hysteresis. They may serve a similar purpose (to keep out unwanted multiple registrations) but hysteresis has to do with the physical location of the switch along its travel, which is not addressed here.
Microswitch hall effect sensors accomplish this with a schmitt trigger, which is even a different implementation and a little more complex than say the hysteresis of an MX blue.
edit: awesome quote:
The Handbook of HCI recommends key travel to be between 1.3 and 6.4 mm, and the key force to be between 28 and 142 g
That's a very narrow range, I'm not sure if any keyboard meet that [/sarcasm]
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Reading the comments, I notice Damien [)amien from GH here posted back in 2008!
