But if the pin and function are the same you can use them instead of one another. Most likely, the naming scheme is up to the manufacturer. Sometimes you may find this IC number, but with an extra character in the front or back. To control in the circuit for “reset” or “freeze” Other equivalents IC of CD4017 The advantage of including the 100K resistors allows a simple push-to-make switch. And, the reset and clock inhibit pins must connect to ground (Vss).
![Pengganti Ic 4017 Pengganti Ic 4017](https://2.bp.blogspot.com/-dmJWuszStds/WcqBzm3zLlI/AAAAAAAAAXc/jQ2XGk8-tBYF9PsxJyPTg3yNbuXpDR6TQCLcBGAs/s1600/014.jpg)
Then, the carry-out pin 12 connects to the clock in the next counter. We arranged the circuit to create a forward reading display and any number of chips. Ideally, it can be a pre-set counter in which the outputs are diode gated to a signaling device such as a lamp or bell. See the circuit diagram, we use two 4017. We can cascade two (or more) 4017 counters to produce a counter.
#Pengganti Ic 4017 how to
Divide by 6, 10, and 60 in crystal Digital Clock Generatorĭo you love it? Read next… How to Cascade the 4017 counter.This circuit is helpful for add divisions or for a circuit requiring easy alteration.įor standard division, a number of cheaper and better IC’s are available. circuit for the CD4017 requires the N + 1 Output to be connected to the reset pin. And hence the input given to pin X and Y is reflected on the channel 2 X2 and Y2 pins.A divide-by-N. As you can see here, the channel 2 is selected by making A as 0 and B as 1. The above image shows the simulation of CD4052 in demultiplexer circuit, the complete working can be found in the video linked below.
![Pengganti Ic 4017 Pengganti Ic 4017](https://www.blog.calesmart.com/wp-content/uploads/2017/05/pcb-768x481.jpg)
We have already discussed the how to select the channel using pins A and B in the above table. The output pins can either be X0,Y0 or X1,Y1 or X2,Y2 or X3,Y3 based on the value set on A and B pins. The CD4052 can be used as a 1:4 Demultiplexer also, that is it can take one input and provide it either one of the 4 output channels based on the channel select pins. So the input given to X1 and Y1 is reflected on the pins X and Y. Meaning the Channel 1 that is X1 and Y1 is selected. The complete working of a 4:1 MUX using the CD4052 simulation is shown in the video below, the image here shows a snapshot of it.Īs you can see in the above image, the channel select pins are 1 and 0 for A and B respectively. The state of the select pins and channel selection is shown in below table: The output on the single channel is decided based on the channel select pins A and B. In our case the four Input channels are X0Y0, X1Y1, X2Y2 and X3 and Y3 and the single output channel is X,Y. The CD4052 can be used as a 4:1 Multiplexer, that is it can take inputs from 4-channel and convert it to single channel output based in the channel select pins. It can handle both analog and digital voltages hence can be used in Analog to Digital and Digital to Analog converters. The IC is commonly used in circuit where a 4:1 MUX or a 1:4 DEMUX is required in a Programmable Logic circuit Design. The IC CD4052 is a CMOS based high voltage Multiplexer and Demultiplexer IC. Note: Complete Technical Details can be found at the CD4052 datasheet given at the end of this page. Available in 16-pin PDIP, CDIP,SOIC, TSSOP packages.Supports both Analog and Digital Voltage.Negative power rail, normally connected to ground.Įnable pin – Must be pulled to ground for normal operation The IC supports both Analog and Digital voltages and hence widely used in many designs. It can either be used as a 4:1 Multiplexer or 1:4 Demultiplexer. The CD4052 is a 4-Channel Multiplexer and Demulitplexer IC.