What is magnitude magnitude comparator?
A magnitude digital Comparator is a combinational circuit that compares two digital or binary numbers in order to find out whether one binary number is equal, less than or greater than the other binary number.
What is the working principle of magnitude comparator?
A digital comparator or magnitude comparator is a hardware electronic device that takes two numbers as input in binary form and determines whether one number is greater than, less than or equal to the other number.
How many inputs are required for a 3 bit digital comparator?
Explanation: a comparator is a combinational circuit that takes two numbers as input in binary form and results whether one input is greater, lesser or equal to the other input. thus, there are two inputs required for a digital comparator (i.e. a & b).
How many output terminals are there for a magnitude comparator?
three output terminals
Explanation: A Magnitude Comparator is a digital comparator which has three output terminals, one each for equality, A = B greater than, A > B and less than A < B.
How many types of digital comparators are?
Explanation: There are two main types of Digital Comparator available and these are: Identity Comparator & Magnitude Comparator.
What is 3-bit magnitude comparator?
3-bit Magnitude Comparator A comparator that compares two binary numbers (each number having 3 bits) and produces three outputs based on the relative magnitudes of given binary bits is called a 3-bit magnitude comparator. 3-bit magnitude The equal functions are A0 = B0, A1= B1, A2 = B2
How to compare two binary numbers using magnitude comparators?
Accepting two binary numbers as input (A and B), data comparison through magnitude comparators produces the output to indicate equality (A=B), logic 1 in two conditions when (A>B or A
What are the different kinds of magnitude comparators?
There are different kinds of magnitude comparators which include the following. A comparator that compares two binary bits and produces three outputs based on the relative magnitudes of given binary bits is called a 1-bit magnitude comparator.
Is it possible to design 3-bit comparator which must consume low power?
The objective of this paper is to design such 3-bit comparator which must consume low power. As in today’s modern world the development of digital integrated circuits is challenged by higher power consumption hence low power circuits become a top priority in modern VLSI design.