NAND Gate

The output is high when either of inputs A or B is high, or if neither is high. In other words, it is normally high, going low only if both A and B are high.

The NAND gate and the NOR gate can be said to be universal gates since combinations of them can be used to accomplish any of the basic operations and can thus produce an inverter, an OR gate or an AND gate. The non-inverting gates do not have this versatility since they can't produce an invert.

How do you make one?IC Example: IC 7400
NAND Gate OperationsNAND Gate Latch


Basic Gates
 Index

Electronics concepts

Digital Circuits
 
HyperPhysics*****Electricity and magnetismR Nave
 Go Back









Making a NAND Gate

Click on either for more detail
Basic Gates
 Index

Electronics concepts

Digital Circuits
 
HyperPhysics*****Electricity and magnetismR Nave
 Go Back














IC 7400 Quad NAND Gate

Show the internal structureComponent numbering for ICs
The NOR version: IC 74024-input NAND: IC 7420
Basic GatesIC Logic Circuits
 Index

Electronics concepts

Digital Circuits
 
HyperPhysics*****Electricity and magnetismR Nave
 Go Back













NAND Gate Operations

The NAND gate is called a universal gate because combinations of it can be used to accomplish all the basic functions.

DeMorgan's Theorem
Example of application
 Index

Electronics concepts

Digital Circuits
 
HyperPhysics*****Electricity and magnetismR Nave
 Go Back










NAND Gate Application

Suppose you want a high output when either A or B is high but C is low. The boolean expression and straightforward gate version of this are:

But the same task can be accomplished with NAND gates only since NAND's are universal gates. Integrated circuits such as the 7400 make this practical.

Index

Electronics concepts

Digital Circuits
 
HyperPhysics*****Electricity and magnetismR Nave
 Go Back