• Look inside image 1
  • Look inside image 2
  • Look inside image 3
  • Look inside image 4
  • Look inside image 5
  • Look inside image 6
  • Look inside image 7
  • Look inside image 8
  • Look inside image 9
  • Look inside image 10
  • Look inside image 11
  • Look inside image 12
  • Look inside image 13
  • Look inside image 14
Fundamentals of Digital Circuits image

Fundamentals of Digital Circuits (Paperback)

by Kumar A. Anand

TK. 1,170 Total: TK. 831

(You Saved TK. 339)

29

Fundamentals of Digital Circuits

4th Edition, 2016

Fundamentals of Digital Circuits (Paperback)

3 Ratings  |  No Review

TK. 1,170 TK. 831 You Save TK. 339 (29%)
in-stock icon In Stock (only 1 copy left)

* স্টক আউট হওয়ার আগেই অর্ডার করুন

কমিয়ে দেখুন
tag_icon

৯৯৯৳+ একাডেমিক বই অর্ডারে প্রতিদিন ১০ জন পাবে ১০০০৳ গিফট ভাউচার!

book-icon

Cash On Delivery

mponey-icon

7 Days Happy Return

Similar Category eBooks

Customers Also Bought

Product Specification & Summary

Systems can be analog or digital. Analog and digital systems are compared and various digital systems are introduced in Chapter 1.
The switching devices used in digital systems are generally two-state devices. So, it is natural to use binary numbers in digital systems. Human beings can interpret and understand data which are available in decimal form. Binary data can be represented concisely using the octal and hexadecimal notations. For this reason, decimal, binary, octal, and hexadecimal number systems, conversion of numbers from one system to another and arithmetic operations in those systems are discussed in Chapter 2.
To provide easy communication between man and machine, and also for ease of use in various devices and for transmission, decimal numbers, symbols, and letters are coded in various ways. Several codes and arithmetic operations involving some of those codes are presented in Chapter 3.
The basic building blocks used to construct combinational circuits are logic gates. Various logic gates and the functions performed by them are described in Chapter 4.
The logic designer must determine how to interconnect the logic gates in order to convert the circuit input signals to the desired output signals. The relationship between the input and output signals can be described mathematically using Boolean algebra. Chapter 5
introduces the basic laws and theorems of Boolean algebra. It also deals with how to convert algebra to logic and logic to algebra. Starting from a given problem statement, the first step in designing a combinational logic circuit is to derive a table or formulate algebraic logic equations which describe the circuit for the realization of the output function. The logic equations which describe the circuit output must generally be simplified. The simplification of logic equations using Boolean algebraic methods is presented in Chapter 5.
The simplification of complex functions cannot be performed by the algebraic methods. More systematic methods of simplification of logic expressions, such as the Karnaugh map method and the Quine-McClusky method are introduced in Chapter 6.
Various types of digital circuits used for processing and transmission of data such as arithmetic circuits, comparators, code converters, parity checkers/generators, encoders, decoders, multiplexers, and demultiplexers are discussed in detail in Chapter 7. Generally, large digital systems are designed using IC modules. Modular design using ICs is also discussed in Chapter 7. Hazards may occur in digital systems. Various hazards and hazard free realization are also discussed in that chapter.
Logic design using Programmable Logic Devices (PLDS) has got many advantages over design using fixed function ICs. Logic design using various combinational PLDS (ROMs, PALS, PLAS, and PROMs) is discussed in Chapter 8.
A single threshold gate can be used in place of many logic gates to realize a Boolean expression. Synthesis of threshold and non-threshold functions using threshold gates is discussed in Chapter 9.
The basic memory element used in the design of sequential circuits is called flip-flop. Various types of latches and flip-flops, their parameters and the conversion of one flip-flop into another are discussed in Chapter 10.
The flip-flops can be interconnected to make registers for data storage and shifting. Various types of shift registers are described in Chapter 11.
The counter is a very widely used digital circuit. The flip-flops can be interconnected with gates to form counters. Asynchronous, synchronous, and ring counters and sequence generators are discussed in Chapter 12.
The systematic design of sequential machines is very essential. The design procedures of synchronous sequential machines using state diagrams and state tables are outlined in Chapter 13.
Sequential circuits (machines) are of two types-Mealy type and Moore type. Minimization of completely specified sequential machines using the partition tehcnique and incompletely specified machines using merger tables and merger graphs are discussed in Chapter 14.
Title Fundamentals of Digital Circuits
Author
Publisher
ISBN 9788120352681
Edition 4th Edition, 2016
Number of Pages 1100
Country India
Language English

Sponsored Products Related To This Item

Reviews and Ratings

5.0

3 Ratings and 0 Review

sort icon

Product Q/A

Have a question regarding the product? Ask Us

Show more Question(s)
loading

Similar Category Best Selling Books

prize book-reading point
Superstore
Up To 65% Off
Recently Viewed
cash

Cash on delivery

Pay cash at your doorstep

service

Delivery

All over Bangladesh

return

Happy return

7 days return facility

0 Item(s)

Subtotal:

Customers Also Bought

Are you sure to remove this from bookshelf?

Write a Review

Fundamentals of Digital Circuits

Kumar A. Anand

৳ 831 ৳1170.0

Please rate this product