IC 7490

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10397
7490
IC: 7490
74LS90 : Counter

The 74LS90 is a simple counter (IC 7490) , i.e. it can count from 0 to 9 cyclically in its natural mode. It counts the input pulses and the output is received as a 4-bit binary number through pins A, B, C and D. The binary output is reset to 0000 at every tenth pulse and count starts from 0 again. A pulse is also generated (probably at pin 9) as it resets its output to 0000. The chip can count up to other maximum numbers and return to zero by changing the modes of 7490. These modes are set by changing the connection of reset pins r1 -r4. For example, if either r1 & r2 are high or r3 & r4 are ground, then it will reset A, B, C and D to 0. If resets r3 & r4 are high, then the count on A, B, C and D goes to 1001.

 

7490
7490 Block Diagram

The other high counts can be generated by connecting two or more 7490 ICs. For example, if two 7490 are connected in a manner that input of one becomes the output of other, the second IC will receive a pulse on every tenth count and will reset at every hundredth count. Thus this system can count from 0 to 99 and give corresponding BCD outputs.

 

7490 has an inbuilt divide by two and divide by five counters which can be connected in different fashion by changing the connections. It can be used as a divide by 10 counter by connecting A with (clock) input2, grounding all the reset pins, and giving pulse at (clock) input1. This enables the cascade connection of the inbuilt counters. It can also be used as a divide by 6 counter by connecting A with input2, grounding r3 & r4, and giving pulse at input1.

 

By connecting A with input1, 7490 can be used for BCD counting whereas by connecting D with input2, it can be used for bi-quinary counting. Bi-quinary is a system for storing decimal digits in a four-bit binary number. The bi-quinary code was used in the abacus.

Pin Description:

Pin No Function Name
1 Clock input 2 Input2
2 Reset1 r1
3 Reset2 r2
4 Not connected NC
5 Supply voltage; 5V (4.75V – 5.25V) Vcc
6 Reset3 r3
7 Reset4 r4
8 Output 3, BCD Output bit 2 C
9 Output 2, BCD Output bit 1 B
10 Ground (0V) Ground
11 Output 4, BCD Output bit 3 B
12 Output 1, BCD Output bit 0 A
13 Not connected NC
14 Clock input 1 Input1