![]() ![]() Similarly by varying the values of R1 and C1 we can obtain clock pulses of different frequency. In our case we have selected a value of 1MΩ for R1 and 0.22uF for the capacitor C1 so the resulting frequency will be Where the unit of F is Hz, R and C is ohms and farads respectively. The formula to set the clock frequency is given is F= 1 / (2.5*R1*C1). The CD4060 has an internal clock oscillator which can be set by using an external resistor (R1) and an external capacitor (C1) as shown in the circuit below. The most important step is setting your clock frequency. Just power the IC though the Vss and Ground pins, it has a wide operating voltage from 3V to 18V, but typically 5V is used. Using the CD4060 binary counter IC is pretty simple. So if you are looking for a 14-bit binary counter which can be incremented through a clock pulse then this IC might be of interest to you. This behavior of the IC can be used to build counters and Dividers, also it is very commonly used for timing related applications. When an Input clock pulse is given to the pin for each pulse the binary value gets incremented f0000 0000 to 11 1111 1111 1111 which is equivalent for 0 to 16383 in decimal. It has 12 output pins ranging from Q1 to Q14 excluding Q2 and Q3. The IC CD4060 is a 14-bit Binary Counter IC from Texas Instruments. Note: Complete Technical Details can be found at the CD4060 datasheet given at the end of this page. Available in 16-pin PDIP, CDIP,SOIC, TSSOP packages.Source current, sink current details are given in datasheet below.Counting range: 0 to 16383 (In decimal).Q3, Q4, Q5, Q6, Q7, Q8, Q9, Q11, Q12, A13Ĭlock Input Pin for setting clock frequencyĮxternal Capacitor to set clock frequency ![]()
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