NEETClass 11thClass 12thClass 12th PlusJEEClass 11thClass 12thClass 12th PlusClass 6-10Class 6thClass 7thClass 8thClass 9thClass 10thOnline CoursesDistance LearningInternational OlympiadNEETClass 11thClass 12thClass 12th PlusJEE (Main+Advanced)Class 11thClass 12thClass 12th PlusJEE MainClass 11thClass 12thClass 12th PlusClass 6-10Class 6thClass 7thClass 8thClass 9thClass 10thKCET/MHT-CETKCETMHT-CETNEET2025202420232022JEE20262025202420232022Class 6-10JEE MainPrevious Year PapersSample PapersMock TestResultAnalysisSyllabusExam DatePercentile PredictorAnswer KeyCounsellingEligibilityExam PatternJEE MathsJEE ChemistryJEE PhysicsJEE AdvancedPrevious Year PapersSample PapersMock TestResultAnalysisSyllabusExam DateAnswer KeyEligibilityExam PatternRank PredictorNEETPrevious Year PapersSample PapersMock TestResultAnalysisSyllabusExam DateCollege PredictorAnswer KeyRank PredictorCounsellingEligibilityExam PatternBiologyNCERT SolutionsClass 6Class 7Class 8Class 9Class 10Class 11Class 12TextbooksCBSEClass 12Class 11Class 10Class 9Class 8Class 7Class 6SubjectsSyllabusNotesSample PapersQuestion PapersICSEClass 10Class 9Class 8Class 7Class 6State BoardBiharKarnatakaMadhya PradeshMaharashtraTamilnaduWest BengalUttar PradeshOlympiadMathsScienceEnglishSocial ScienceNSOIMONMTCTALLENTEXASATInstant Online ScholarshipAIOT(NEET)ALLEN for SchoolsAbout ALLENBlogsNewsCareersRequest a call backBook a demo
  • Classroom Courses
  • NEW
  • ALLEN E-Store
Home
JEE Physics
NAND gate

Frequently Asked Questions

A NAND gate combines an AND gate and a NOT gate. A NAND gate has two inputs and contains only a single output Boolean Expression of NAND gate is Y= A.B

If input (A=1 and B= 1) is fed to the input of the NAND gate, the output Y = 0

If both inputs are shorted, the NAND gate behaves like a NOT gate.

NOR and NAND gates work as universal logic gates.

Logic gates working is based on the flow of electric current.

Join ALLEN!

(Session 2026 - 27)


Choose class
Choose your goal
Preferred Mode
Choose State
  • About
    • About us
    • Blog
    • Allen News
    • Privacy policy
    • Public notice
    • Careers
    • Dhoni Inspires NEET Aspirants
    • Dhoni Inspires JEE Aspirants
  • Help & Support
    • Refund policy
    • Transfer policy
    • Terms & Conditions
    • Contact us
  • Popular goals
    • NEET Coaching
    • JEE Coaching
    • 6th to 10th
  • Courses
    • Classroom Courses
    • Online Courses
    • Distance Learning
    • Online Test Series
    • International Olympiads Online Course
    • NEET Test Series
    • JEE Test Series
    • JEE Main Test Series
  • Centers
    • Kota
    • Bangalore
    • Indore
    • Delhi
    • More centres
  • Exam information
    • JEE Main
    • JEE Advanced
    • NEET UG
    • CBSE
    • NIOS
    • NCERT Solutions
    • Olympiad
    • NEET Mock Test
    • NEET Past Years Papers
    • NEET Sample Papers
    • NEET Answer Key 2026
    • NEET College Predictor 2026
    • NEET Rank Predictor 2026
    • NEET Cutoff
    • NEET Exam Analysis
    • NEET Revision Notes

ALLEN Career Institute Pvt. Ltd. © All Rights Reserved.

ISO

NAND Gate

In digital circuits, logic gates are the basic building blocks of electronic circuits and integrate circuit technology. Digital devices like laptops and smartphones use binary bits to perform mathematical operations. The base of digital electronics is general logic gates: OR, AND, and NOT. By using combinations, various logic gates can be generated. Combinations of these gates make a NAND gate, also known as a Sheffer stroke. By using a NAND gate, complex functions can be processed efficiently. A NAND gate combines an AND gate and a NOT gate.

1.0Define NAND Gate

A NAND gate combines an AND gate and a NOT gate. It is obtained by combining the output of an AND gate with the input of a NOT gate. The truth table of the NAND gate can be obtained by determining the negation of its output.

2.0NAND Gate Description

A NAND gate typically has two inputs, denoted as A and B. The output Y  of a NAND gate is shown below:

  • Y = 1 when A = 0 and B = 0.
  • Y = 0 when  A = 1 and  B = 1
  • Y = 1 when A = 0 and B = 1 
  • Y = 1 when A = 1 and B = 0

A NAND gate has two inputs and only a single output; the number of inputs can be increased according to need. It is a reciprocal of an AND gate. The output will be high if any one of the inputs is low. The NAND gate is a Universal gate.

3.0NAND Gate Examples

  • Security system
  • Construction of Flip Flops, latches, multiplexers
  • Sensors connected to windows and doors
  • Automatic Water Monitoring System
  • Barcode Scanner 

4.0Logical Symbol of NAND Gate

Logical symbol of NAND gate

The symbol is the same as the AND gate but with a small circle at the output. The small circle indicates the NOT or INVERTER operation.

5.0Boolean Expression for NAND Gate

 Y=A.B

Boolean Expression for NAND gate

6.0Truth Table of NAND Gate

Truth Table of NAND gate

7.0NAND Gate Circuit Diagram Using Diode

NAND gate circuit Diagram using Diode

8.0Advantages of NAND Gate

  • Low power consumption
  • Universal logic gate
  • It easily simplifies logical expression

Table Of Contents


  • 1.0Define NAND Gate
  • 2.0NAND Gate Description
  • 3.0NAND Gate Examples
  • 4.0Logical Symbol of NAND Gate
  • 5.0Boolean Expression for NAND Gate
  • 6.0Truth Table of NAND Gate
  • 7.0NAND Gate Circuit Diagram Using Diode
  • 8.0Advantages of NAND Gate