Trigger before stable mode, Debounce mode comparisons – Measurement Computing USB-2527 User Manual

USB-2527 User's Guide

Functional Details

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 T2 – At the end of time period T2, the input signal has transitioned high and stayed there for the required

amount of time—therefore the output transitions high. If the input signal does not stabilize in the high state
long enough, no transition would have appeared on the output and the entire disturbance on the input would
have been rejected.

 T3 – During time period T3, the input signal remained steady. No change in output is seen.
 T4 – During time period T4, the input signal has more disturbances and does not stabilize in any state long

enough. No change in the output is seen.

 T5 – At the end of time period T5, the input signal has transitioned low and stayed there for the required

amount of time—therefore the output goes low.

Trigger before stable mode

In the trigger before stable mode, the output of the debounce module immediately changes state, but will not
change state again until a period of stability has passed. For this reason the mode can be used to detect glitches.

Figure 16. Debounce module

– Trigger before stable mode

The following time periods (T1 through T6) pertain to the above drawing.

 T1 – In the illustrated example, the input signal is low for the debounce time (equal to T1); therefore when

the input edge arrives at the end of time period T1, it is accepted and the output (of the debounce module)
goes high. Note that a period of stability must precede the edge in order for the edge to be accepted.

 T2 – During time period T2, the input signal is not stable for a length of time equal to T1 (the debounce

time setting for this example.) Therefore, the output stays "high" and does not change state during time
period T2.

 T3 – During time period T3, the input signal is stable for a time period equal to T1, meeting the debounce

requirement. The output is held at the high state. This is the same state as the input.

 T4 – At anytime during time period T4, the input can change state. When this happens, the output will also

change state. At the end of time period T4, the input changes state, going low, and the output follows this
action [by going low].

 T5 – During time period T5, the input signal again has disturbances that cause the input to not meet the

debounce time requirement. The output does not change state.

 T6 – After time period T6, the input signal has been stable for the debounce time and therefore any edge on

the input after time period T6 is immediately reflected in the output of the debounce module.

Debounce mode comparisons

Figure 17

shows how the two modes interpret the same input signal, which exhibits glitches. Notice that the

trigger before stable mode recognizes more glitches than the trigger after stable mode. Use the bypass option to
achieve maximum glitch recognition.