3.1 DIGITAL ELECTRONICS
This course has been designed to make the students know about the fundamental
principles of digital electronics and gain familiarity with the available IC chips. This
subject aims to give a background in the broad field of digital systems design and
After undergoing the subject, student will be able to:
Verify and interpret truth tables for all logic gates.
Realize all logic functions with NAND and NOR gates
Design half adder and full adder circuit
Demonstrate and design 4-bit adder, 2\’s complement subtractor
Verify and interpret truth tables for all flip flops.
Verify and interpret truth tables of multiplexer, de-multiplexer, encoder and
Design a four bit ring counter and verify its operation
Design 4-bit SISO, PISO, SIPO, PIPO shift registers
1. Introduction (02 hrs)
a) Distinction between analog and digital signal.
b) Applications and advantages of digital signals.
2. Number System (04 hrs)
a) Binary, octal and hexadecimal number system: conversion from decimal and
hexadecimal to binary and vice-versa.
b) Binary addition, subtraction, multiplication and division including binary
points. Sign magnitude method of representation, 1’s and 2’s complement
method of addition/subtraction, floating point representation
3. Codes and Parity (04 hrs)
a) Concept of code, weighted and non-weighted codes, examples of BCD,
excess-3 and Gray code.
b) Concept of parity, single and double parity and error detection and correction
c) Alpha numeric codes: ASCII, EBCDIC and Unicode.
4. Logic Gates and Families (07 hrs)
a) Concept of negative and positive logic
b) Definition, symbols and truth tables of gates. Construction of NOT, AND and
OR gates from NAND and NOR gates (universal gates).
(c) Introduction to TTL and CMOS logic families and their sub classification
5. Logic Simplification (06 hrs)
a) Postulates of Boolean algebra, De Morgan’s Theorems. Various identities.
Formulation of truth table and Boolean equation for simple problem.
Implementation of Boolean (logic) equation with gates
b) Karnaugh map (upto 4 variables) and simple application in developing
combinational logic circuits
6. Arithmetic circuits (06 hrs)
a) Half adder and Full adder circuit, design and implementation.
b) Half and Full subtracter circuit, design and implementation.
c) 4 bit adder/subtracter.
d) Adder and Subtractor IC (7484)
e) 2-bit comparator
7. Decoders, Multiplexers and De-Multiplexers (06 hrs)
a) Basic functions and block diagram of Encoders and decoders.
b) Basic functions and block diagram of Multiplexers and De-Multiplexers.
Different types and ICs.
c) Four bit decoder circuits for 7 segment display and decoder/driver ICs.
8. Latches and flip flops (06 hrs)
a) Concept and types of latch with their working and applications
b) Operation using waveforms and truth tables of RS, T, D, JK and Master/Slave
JK flip flops.
c) Difference between a latch and a flip flop
d) Flip flop ICs
9. Shift Register (07 hrs)
Introduction and basic concepts including shift left and shift right.
a) Serial in parallel out, serial in serial out, parallel in serial out, parallel in
b) Universal shift register
c) Buffer register, Tristate Buffer register
d) IC 7495
10. Counters (08 hrs)
a) Introduction to Asynchronous and Synchronous counters
b) Binary up/down counters (upto MOD-8)
c) Decade counter.
d) Pre settable and programmable counters
e) Ring counter with timing diagram
f) Counter ICs
11. Analog to Digital and Digital to Analog Converters (08 hrs)
a) Working principle of A/D and D/A converters
b) Detail study of :
Binary Weighted D/A converter
R/2R ladder D/A converter
a) Brief idea about different techniques of A/D conversion and study of :
Stair step Ramp A/D converter
Dual Slope A/D converter
Successive Approximation A/D Converter
b) Performance characteristics of A/D and D/A converter.
c) Applications of A/D and D/A converter.
LIST OF PRACTICALS
1. Verification and interpretation of truth tables for AND, OR, NOT NAND, NOR
and Exclusive OR (EXOR) and Exclusive NOR(EXNOR) gates
2. – Realisation of logic functions with the help of NAND or NOR gates
– Design of a NOR gate latch and verification of its operation
3. – To design a half adder using XOR and NAND gates and verification of its
– Construction of a full adder circuit using XOR and NAND gates and verify its
4. To design 4 bit adder, 2’s complement subtractor circuit using an 4 bit adder IC
and an XOR IC and verify the operation of the circuit.
5. To design a NOR Gate Latch and verification of its operation
6 Verification of truth table for positive edge triggered, negative edge triggered,
level triggered IC flip-flops (At least one IC each of D latch , D flip-flop, JK flipflops).
7. Verification of truth table for encoder and decoder ICs, Mux and DeMux
8. To design a 4 bit SISO, SIPO, PISO, PIPO shift registers using JK/D flip flops and
verification of their operation.
9. To design a 4 bit ring counter and verify its operation.
10. Asynchronous Counter ICs
Verification of truth table for any one universal shift register IC
Use of IC 7490 or equivalent TTL (a) divide by 2 (b) divide by 10 Counter
Use of IC 7493 or equivalent TTL (a) divide by 2 (b) divide by 8 (c) divide by
Note: Above experiments may preferably be done on Bread Boards.
The digital systems in microprocessors have significant importance in the area of
electronics. Adequate competency needs to be developed by giving sufficient practical
knowledge in microprocessors (programming as well as interfacing), A/D, D/A
Converters and other topics. Help may be taken in the form of charts, simulation packages
to develop clear concepts of the subject. Programming exercises other than the tested in
circulation may be given to the students.
1. Digital Electronics and Applications by Malvino Leach, Tata McGraw Hill Education Pvt Ltd, New Delhi
2. Digital Logic Designs by Morris Mano, Prentice Hall of India,New Delhi
3. Digital Circuits and Design by DP Kothari and JS Dhillon, Pearson Publication, New Delhi
4. Digital Electronics by Soumitra Kumar Mandal, Tata McGraw Hill Education Pvt Ltd.
5. Digital Electronics by Tokheim, Tata McGraw Hill Education Pvt Ltd.
6. Digital Fundamentals by Thomas Floyds, Universal Book Stall
7. Digital Electronics by RP Jain, Tata McGraw Hill Education Pvt Ltd, New Delhi
8. Digital Electronics by KS Jamwal, Dhanpat Rai and Co., New Delhi
9. Digital Electronics by BR Gupta, Dhanpat Rai & Co., New Delhi
10. Digital Systems: Principles and Applications by RJ Tocci, Prentice Hall of India, New Delhi
11. Digital Electronics by Rajaraman V., Prentice Hall of India, New Delhi
DIGITAL ELECTRONICS DIPLOMA PAPER SOLUTION
INTRODUCTION TO DIGTAL ELECTRONICS
Syallbus and Introduction to Digital Electronics Diploma PSBTE
Syallbus and Introduction to Digital Electronics
a) Distinction between analog and digital signal.
Distinction between analog and digital signal.
b) Advantage and Application of Digital Systems
Advantage and Application of Digital Systems
Download Previous Year Digital Electronics 3rd Sem Semester Question Paper Solution Click Here
Explain Intrinsic and Extrinsic Semiconductor with Suitable Diagram ?
Intrinsic and Extrinsic Semi-conductor Click Here.
What is Zener diode? Draw its symbol and explain its characteristics.
What is Zener diode? Draw its symbol and characteristics
Explain the Working of Half Wave Rectifier
Working of Half wave Rectifier click here
Explain the working of NPN Transistor ?
Working of NPN Transistor Click Here
Difference Between FET and BJT ?
h-Parameters (hybrid Parameter) of transistors ?
hybrid Parameter) of transistor
In what way the temperature variations affect the operating point of a transistor?
Temperature variations affect the operating point of a transistor
Explain the Phase reversal of output voltage with respect to input voltage in an Amplifier ?
Phase reversal of output voltage with respect to input voltage in an Amplifier
Basic Electronics PSBTE Diploma Solved Paper May 2017 Solution Click Here
BASIC ELECTRONICS DIPLOMA MAY 2018 PAPER
Section c solved bee paper
Needs of filter ? Explain π (Pi) filter
Need of Filter Pi Filter Click Here
Derive an expression for amplification factor (β) of common emitter configuration ?
Full Wave common emitter configuration
Explain the divider method of biasing for transistor (CE)
Input and Output Characteristics of CE configuration of a Transistor ?
CE configuration of a Transistor Click Here
Concept of CMOS,Advantages and Application ?
Concept of Bipolar Transistor Symbol of BJT
BASIC ELECTRONICS 2nd SEMESTER EXAM/ECE/CSE/IT/EEE/0664/May 2018 Contact Us
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