SCLT015 june   2023 SN74HC163-Q1 , SN74HC32 , SN74HC4020 , SN74HC4060 , SN74HC4060-Q1 , SN74HCS04 , SN74HCS04-Q1 , SN74HCS32 , SN74HCS32-Q1 , SN74LV163A , SN74LVC2G74 , SN74LVC2G74-Q1

 

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A binary counter paired with a resistor-capacitor (RC) oscillator generates a timed enable pulse, when triggered. Triggering a system that is not enabled enables the system for an amount of time determined by the RC, after which the system disables. Triggering an already-enabled system disables the system prematurely.

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Design Considerations

  • A gate with Schmitt-trigger inputs connected to the debounced switch does not need a buffer to debounce the switch input
  • The pulse width of the enable pulse when the switch is triggered is RC (number of bits)
    • Binary counters without an RCO output can use the highest bit output in the counter. Doing this reduces the effective number of bits of the counter by 1.
  • When the device is first powered on, the flip-flop outputs an unknown state unless the device is reset with a power-on reset pulse
    • Systems which do not require starting in a specific state do not require asynchronous clear
  • Ask a question on the TI E2E™ forum
Recommended Parts
Part Number AEC-Q100 VCC Range Function Features
SN74LV163A 2 V – 5.5 V Binary counter 4 bit, RCO output, load function
SN74HC4060 2 V – 6 V Binary counter 14 bit, Integrated oscillator, Active high clear
SN74HC4060-Q1
SN74LVC1G08 1.65 V – 5.5 V D-type flip-flop 1 channel
SN74LVC1G08-Q1
SN74LVC1G175 1.65 V – 5.5 V D-type flip-flop 1 channel, Asynchronous clear
SN74LVC2G74 1.65 V – 5.5 V D-type flip-flop 1 channel, Asynchronous clear, Inverted output, Preset
SN74LVC2G74-Q1
SN74LVC1G14 1.65 V – 5.5 V Inverting buffer 1 channel, Schmitt-trigger inputs
SN74LVC1G14-Q1
SN74LVC1G32 1.65 – 5.5 V OR gate 1 channel
SN74LVC1G32-Q1

For more devices, browse through the online parametric tool where you can sort by desired voltage, channel numbers, and other features.