Part Number: SN74HC4060
This is a dual frequency oscillator circuit, creating 528Hz through 1No. Ripple Counter and a second 40.6Hz created through 2 No. Ripple Counters.
The programmable Crystals are set at a frequency of 2.16269MHz for 528 Hz and 1…
Part Number: SN74HC4060-Q1 Dear team,
The following problems were found during the test.(Yellow: power, Green: 4 pin, Blue: 5 pin, Pink: 7 pin)
1.When the temperature is -40 °C, the low-voltage power-on and power-off test is performed.
> When the…
Part Number: SN74HC4060 What is the state of the outputs when power is first applied, or more generally, are all the flips-flops zero during startup? Specifically, I have CLR tied to ground and am using an RC oscillator of C = 2.2 uF R1 = 53.6 kO R2 =…
Part Number: SN74HC4060 Other Parts Discussed in Thread: SN74LVC3GU04 , SN74LVC1G14 Hello. I recently acquired an SN74HC4060N I intend to use it as a time counter. Following the scheme and formulas of page 6 of the IC's datasheet, I attached a capacitor…
Other Parts Discussed in Thread: SN74HC4060 , CD74HC4060 Hi All
I would like to know if we use the internal RC oscillator what would the max frequency possible from IC SN74HC4060 ?
The formula on page 6, the RC , IS R in ohms? or Kohms? and C is the uF…
Other Parts Discussed in Thread: CD74HC4060 , SN74HC4060 Hi, the bellow circuit doesn't work.
VDps=3.6-4.2v
When I use a 4MHz oscillator it works perfectly.
If I use a CD74HC4060 it also works.
Why wouldn't it work with the SN74HC4060?
Michael
Part Number: CD74HC4046A Other Parts Discussed in Thread: SN74HC4060 , Hi Team,
We would like to ask your help regarding the customer inquiry below.
Would like help defining / verifying / understanding resistor and capacitors (R1, C1, R3, C2 (R2=NC)),…
Part Number: CD4060B Other Parts Discussed in Thread: SN74HC4060 , CD74HCT4060 Hi Support team
My customer would like to know CD4060BM96 HBM ESD data,
the product line lost traceability of ESD documentation for these CD4k devices.
Do you have suggested…
I found SN74HC4060 binary counter and its Icc = 80uA @ 6V. I will need the circuit to work from 3.7V. So I suppose supply current will still be way higher than when using nano timers.
Another option is to use SN74LV163A binary counter and SN74AUP1G08…