Phone

    00852-6915 1330

74LS86 XOR gate digital IC : 2 Simple Using and Other Infromation[with examples]

  • Contents

74LS86 XOR gate digital IC : 2 Simple using and other infromation{ with examples}

 

74LS86 is a quadruple XOR gate digital IC. There are three types of gates AND, NOT and NAND gate but with these gates, we can make multiple gates according to the requirement. Some times these three gates don’t fulfill the requirement then-new gates can be designed with the combination of these three (AND, NOT, OR) gates. When we combine these gates then we come up with multiple gates and XOR is one of them. XOR gates are logic gates with the combination of two NOT, two AND & one OR gate. The output state gets LOW only at the same inputs.

Catalog

74LS86 Introduction

74LS86 Pinout

74LS86 Pinout Diagram

74LS86 CAD Model

How and Where to use 74LS86?

Truth Table 74LS86

 74LS86 Specification

Example using 74LS86

74LS86 XOR Gate Features

74LS86 IC APPLICATIONS

Manufacturer

FAQ

 

74LS86 Introduction

The XOR gate can be designed with a transistor or with other gates but that will come up with a circuit large in size, to solve this issue we use 74LS86 IC. The IC 7486 comes up withfour internal XOR gates. The IC is smaller in size and it comes up with internal speed protection. It also comes in multiple packages that help to solve the requirement of IC in different devices. The output of the IC comes in TTL which makes it compatible to use with other TTL based devices and microcontrollers. The IC has wide use in designing of an adder at the logic level.

 

 

SN74LS86 | XOR logic gate IC 7486 explained | Truth table explained

 

 

74LS86 Pinout

 

74LS86-circuit

74LS86 circuit

 

 

74LS86 Pinout Diagram

Pin configuration of XOR gate 74LS86 is shown here. Details of all pins are listed in the table.

PINS

 

DETAIL

A1

Pin 1

The 74LS86 comes up with four XOR gates and Pin 1 will be used as the first input pin. It will use to input the data to first XOR gate within the IC

B2

Pin 2

Pin 2 will use as the second input pin. It will also use to input the data to the first XOR gate.

Y1

Pin 3

Pin 3 is an output pin of the first XOR gate. It will use to receive the output from the first XOR gate.

A2

Pin 4

Pin 4 will be used as the first input pin for the second XOR gate in the IC.

B2

Pin 5

Pin 5 will also use as the second input pin for the second XOR gate in the IC.

Y2

Pin 6

Pin 6 is an output pin of the second XOR gate of the IC. It will give the output of the second XOR gate.

GND

Pin 7

Pin 7 will be used as the ground pin. It will use to make the common ground with power supply and other devices.

Y3

Pin 8

Pin 8 is an output pin used to receive the output from the third XOR gate.

A3

Pin 9

Pin 9 is an output pin used to send the first input to the third XOR gate in the IC.

B3

Pin 10

Pin 10 is also an output pin used to send the second input to the third XOR gate in the IC.

Y4

Pin 11

Pin 11 is an output pin. It is used to receive the output from the fourth XOR gate.

A4

Pin 12

Pin 12 is an input pin used to send the first input to the fourth XOR gate of the IC.

B4

Pin 13

Pin 13 is also an output pin used to send the second input to the fourth XOR gate of IC.

VCC

Pin 14

VCC is a power pin used to power up the IC to make it functional.

 

74LS86 CAD Model

 

74LS86-CAD-Model

Footprint

 

 

How and Where to use 74LS86?

The 74LS86 follows the simple logic of the main basic three gates. The 7486 consists of a logical circuit using two AND, two NOT and one OR gate. The NOT gate will be used at input pins and at the same time the input will be given to the AND gates without inverting. Then the output from both AND gates will be given to the OR gate and the final output will be received through the OR gate. Here’s the following circuit.

 

The OR gate only gives the output LOW when both inputs are LOW, here NOT and AND gates are filtering the Both HIGH states to flow towards the OR gates. This simple filtering method makes the XOR gate circuit. The XOR gate can be made up with other combinations too, but every XOR gate will give the specific output on different inputs. The input put and outputs can be represented by a truth table.

 

Truth Table 74LS86

RUTH TABLE    
INPUTS   OUTPUTS
A B  
0 0 0
0 1 1
1 0 1
1 1 0

 

 74LS86 Specification

Product Attributes  
TYPE DESCRIPTION
Category Integrated Circuits (ICs)
  Logic - Gates and Inverters
Mfr onsemi
Series 74LS
Package Tube
Part Status Obsolete
Logic Type XOR (Exclusive OR)
Number of Circuits 4
Number of Inputs 2
Features -
Voltage - Supply 4.75V ~ 5.25V
Current - Output High, Low 400A, 8mA
Logic Level - Low 0.8V
Logic Level - High 2V
Max Propagation Delay @ V, Max CL 23ns @ 5V, 50pF
Operating Temperature 0C ~ 70C
Mounting Type Through Hole
Supplier Device Package 14-MDIP
Package / Case 14-DIP (0.300", 7.62mm)
Base Product Number 74LS86

 

Example using 74LS86

 

In the example of 74LS86, we will design a full adder. In full adder, we will use two XOR gates, two AND gates, and one OR gate. A single XOR gate can be used as half adder but in the single adder, we are unable to get the carry.

 

 

Example-using-74LS86

Single bit Full adder 74LS86

 

 

1. Single bit Full adder 74LS86

Here we will design a combination where we will be able to design a full adder using 74LS86. In-circuit there will be three inputs. The first two inputs will be used to enter the two input bits and the third pin will be used as the carrying pin. The full adder we are designing here is only for two bits but we can attach multiple full adders to add more than single bit data. Here’s the circuit.

 

 

using-74LS86

using 74LS86

 

 

2. Bit Full adder 74LS86

The full adder circuit will give the output by adding the carry and two inputs. The sum will be represented by a binary number and which will be received from the output of the second XOR gate. The carry out will be the remaining value from the sum and it will also be received as binary. In full adder circuit when we need to add multiple binary digitals, we will use the carry out as the carry-in for the other circuit. Here’s the circuit.

 

In this circuit, we can view that the carry out of the first adder becomes the carry-in of the second adder. This process will continue further and we can design multiple adders just by following the same circuit. The logic base adder also has premade IC but this logic-based circuit will help us to build an adder in case of emergency or we have a limit where we are unable to use the premade adders. The speed and efficiency of an adder will be the same as compared to the company made adder but its size will be larger.

 

Bit Full adder 74LS86

 

74LS86 XOR Gate Features

 

  • A single IC provides four XOR gates in different sizes.
  • The IC provides output in TTL form, which makes it compatible with other TTL devices and microcontrollers.
  • The IC comes in multiple packages, SOIC, PDIP, and SOC.
  • The single power supply uses to power up all four gates.
  • IC 74LS86 can be used as a single XOR gate without affecting the others.
  • Its cost is much less than a transistor-based XOR gate.

74LS86 IC APPLICATIONS

  • It is used to make the Adder.
  • The IC has multiple uses in Networking.
  • Servers also have multiple uses of the XOR gate.
  • XOR gate is also used in sequence detection for binary data

 

 

Manufacturer

Onsemi is driving energy efficient innovations, empowering customers to reduce global energy use. The company offers a comprehensive portfolio of energy efficient power and signal management, logic, discrete and custom solutions to help design engineers solve their unique design challenges in automotive, communications, computing, consumer, industrial, LED lighting, medical, military/aerospace and power supply applications. onsemi operates a responsive, reliable, world-class supply chain and quality program, and a network of manufacturing facilities, sales offices and design centers in key markets throughout North America, Europe, and the Asia Pacific regions.

 

74LS86 Datasheet

74LS86 Datasheet

 

FAQ

What is 74LS86?

74LS86 is a quadruple XOR gate digital IC. ... XOR gates are logic gates with the combination of two NOT, two AND & one OR gate. The output state gets LOW only at the same inputs.

 

How many logic gates are there in HD 74 LS 86 P?

This device contains four independent gates each of which performs the logic exclusive-OR function. Ordering Code: Devices also available in Tape and Reel.

 

How many pins are there in IC 7486?

14 Pin 74HC86 IC (7486) - Quad 2-Input EXOR Gate IC buy online at Low Price in India - ElectronicsComp.com. 74HC86 is Quad 2-Input EXOR Gate 14 Pin IC. It is an advanced high speed CMOS 2−input Exclusive−OR gate fabricated with silicon gate CMOS technology.

Kynix

Kynix was founded in 2008, specializing in the electronic components distribution business. We adhere to honesty and ethics as our business philosophy and have gradually established an excellent reputation and credibility in our international business. With the accurate quotation, excellent credit, reasonable price, reliable quality, fast delivery, and authentic service, we have won the praise of the majority of customers.

Join our mailing list!

Be the first to know about new products, special offers, and more.

Leave a Reply

We'd love to hear from you! Feel free to share your thoughts and comments below. Rest assured, your email address will remain private.

Name *
Email *
Captcha *
Rating:

Kynix

  • How to purchase

  • Order
  • Search & Inquiry
  • Shipping & Tracking
  • Payment Methods
  • Contact Us

  • Tel: 00852-6915 1330
  • Email: info@kynix.com
  • Follow Us

authentication

Kynix

© 2008-2026 kynix.com all rights reserved.