Book Details

Switching Theory and Logic_Design

Switching Theory and Logic_Design

Published by uLektz

Course Code : R1621042
Author : uLektz
University : JNTU Kakinada
Regulation : 2016
Categories : Electronics & Communication
Format : ico_bookePUB3 (DRM Protected)
Type :

eBook

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Description :Switching Theory and Logic_Design of R1621042 covers the latest syllabus prescribed by JNTU Kakinada for regulation 2016. Author: uLektz, Published by uLektz Learning Solutions Private Limited.

Note : No printed book. Only ebook. Access eBook using uLektz apps for Android, iOS and Windows Desktop PC.

Topics
UNIT I REVIEW OF NUMBER SYSTEMS & CODES

1.1 Representation of numbers of different radix, conversation from one radix to another radix, r-1's compliments and r's compliments of signed members, problem solving

1.2 4 bit codes, BCD, Excess-3, 2421, 84.2-1 9' compliment code etc

1.3 Logic operations, Error detection & correction codes, EX-OR, EX-NOR - Gates - Basic logic operations - NOT, OR, AND, Universal building blocks - Standard SOP and POS, Forms, Gray code - Error detection, error correction codes (parity checking, even parity, odd parity, Hamming code)

1.4 NAND-NAND and NOR-NOR realizations

UNIT II MINIMIZATION TECHNIQUES

2.1 Boolean theorems, principle of complementation & duality

2.2 De-morgan theorems - Minimization of logic functions using Boolean theorems

2.3 Minimization of switching functions using K-Map up to 6 variables

2.4 Tabular minimization

2.5 Problem solving (code-converters using K-Map)

UNIT III COMBINATIONAL LOGIC CIRCUITS DESIGN

3.1 Design of Half adder, full adder

3.2 Half subtractor, full subtractor - Applications of full adders

3.3 4-bit binary subtractor - Adder-subtractor circuit

3.4 BCD adder circuit - Excess 3 adder circuit - Look-Ahead Adder Circuit

3.5 Design of decoder - Demultiplexer - 7 segment decoder - Higher order de multiplexing - Encoder - Multiplexer, higher order multiplexing - Realization of Boolean functions using decoders and multiplexers - Priority encoder

3.6 4-bit digital comparator

UNIT IV INTRODUCTION OF PLD’s

4.1 PROM, PAL, PLA-Basics structures

4.2 Realization of Boolean function with PLD’s

4.3 Programming tables of PLD’s

4.4 Merits & demerits of PROM, PAL, PLA comparison

4.5 Realization of Boolean functions using PROM

UNIT V SEQUENTIAL CIRCUITS I

5.1 Classification of sequential circuits (synchronous and asynchronous)

5.2 Basic flip-flops, truth tables and excitation tables (nand RS latch, nor RS latch, RS flip-flop, JK flip-flop, T flip-flop, D flip-flop with reset and clear terminals).

5.3 Conversion from one flip-flop to flip-flop

5.4 Design of ripple counters

5.5 Design of synchronous counters - Johnson counter, Ring counter

5.6 Design of registers - Buffer register, control buffer register - Shift register - Bi-directional shift register - Universal shift register

UNIT VI SEQUENTIAL CIRCUITS II

6.1 Finite state machine, Analysis of clocked sequential circuits

6.2 State diagrams, State tables

6.3 Reduction of state tables and state assignment, design procedures

6.4 Realization of circuits using various flip-flops

6.5 Mealay to Moore conversion and vice-versa

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