Download Introduction to Digital Electronics (Essential Electronics Series) PDF

Introduction to Digital Electronics John Crowe and Barrie Hayes-Gill PDF

**Picture Of The Book :**

**Introduction to Digital Electronics PDF**

**About Of The Book :**

"Introduction to Digital Electronics" by John Crowe and Barrie Hayes-Gill is a textbook that provides an introduction to the basic principles of digital electronics. The book covers the fundamental concepts of digital circuits, logic gates, Boolean algebra, combinational circuits, and sequential circuits.

The book is designed for students who have a basic understanding of electronics and mathematics. It starts with an overview of the binary number system and progresses through the design and analysis of digital circuits. The authors use clear and concise language to explain the concepts, and there are numerous examples and exercises throughout the book to help students develop their understanding.

Overall, "Introduction to Digital Electronics" is a useful resource for students studying electronics, computer engineering, or related fields. It provides a solid foundation for further study in digital electronics and can be used as a reference for professionals in the field.

The book is aimed at undergraduate students studying digital electronics, computer engineering, and related fields. It is also suitable for anyone who wants to learn the basics of digital electronics.

The book is organized into 10 chapters, starting with an introduction to digital systems and progressing through to more advanced topics such as counters, registers, and memory circuits.

Each chapter includes learning objectives, key terms, and review questions to help students reinforce their understanding of the material.

The authors use a practical, hands-on approach to teaching digital electronics, with many examples and exercises that demonstrate how the concepts can be applied in real-world situations.

The book includes a companion website that provides additional resources, such as PowerPoint slides, laboratory exercises, and solutions to selected problems.

Overall, "Introduction to Digital Electronics" is a well-written and comprehensive textbook that provides a solid foundation in digital electronics for students and professionals alike. Its practical approach and numerous examples make it an engaging and useful resource for anyone looking to learn about digital electronics.

This book covers the material normally found in first and second-year modules on digital electronics. It is intended for use by degree, diploma, and TEC students in electronic engineering, computer science, and physics departments. It is also aimed at those professionals who are revisiting the subject as a means of updating themselves on recent developments. The philosophy of this book is to cover the basics in detail and to give a taste of advanced topics such as asynchronous and synchronous circuit design, and semi-custom IC design. In other words, we have adopted a broad brush approach to the subject. This will provide the reader with an introduction to these advanced techniques which are covered in more specialist and comprehensive texts. The book is sprinkled with numerous practical examples indicating good and poor design techniques and tips regarding circuit pitfalls. To provide you with confidence in your understanding each chapter is concluded with both short and long questions and follows the same format as the other texts in this series.

**Contents Of The Book :**

**Chapter I Fundamentals**

Introduction

Basic principles

1.2.1 Boolean algebra- an introduction

1.2.2 The three Boolean operators

Boolean algebra

1.3.1 Single-variable theorems

1.3.2 Multivariable theorems

Logic symbols and truth tables

Timing diagrams

Duality and gate equivalence

Positive and negative assertion level logic

Universal gates

Self-assessment

Problems

**Chapter 2 Arithmetic and digital electronics**

Introduction

Bases-2, 10 and 16 (binary, decimal and hexadecimal)

2.2.1 Conversion from base-n to decimal

2.2.2 Conversion from decimal to base-n

2.2.3 Binary and hexadecimal

Other binary coding systems

Output from analogue-to-digital converters

Binary arithmetic

2.5.1 Addition

2.5.2 Subtraction

2.5.3 Multiplication

2.5.4 Division

Self-assessment

**Chapter 3 Combinational logic basics**

Introduction

Combinational logic theory

3.2.1 Fundamental sum of products expressions

3.2.2 Two-level circuits

3.2.3 Minimisation of fundamental sum of products expressions

3.2.4 Summary

Minimisation of combinational logic expressions

3.3.1 Minimisation via Boolean algebra

3.3.2 Minimisation via Karnaugh maps

3.3.3 Minimisation via the Quine-McCluskey technique

Product of sums: the negative logic approach

Self-assessment

Problems

**Chapter 4 Combinational logic circuits**

Common combinational logic circuits

4.1.1 Multiplexers

4.1.2 Demultiplexers

4.1.3 Encoders

4.1.4 XOR gate based circuits

4.1.5 Full adders

Combinational logic design example: a four-bit adder

4.2.1 Two-level circuits

4.2.2 Specification for the four-bit binary adder

4.2.3 Two-level circuit implementation

4.2.4 Heuristic implementation

4.2.5 Summary

Hazards

4.3.1 Introduction

4.3.2 Static hazards

4.3.3 Dynamic hazards

4.3.4 Summary

Self-assessment

Problems

**Chapter 5 Asynchronous sequential logic**

Sequential logic circuits: an overview

5.1.1 Asynchronous and synchronous circuits

Introduction to asynchronous sequential circuits

5.2.1 Inputs and race conditions

Analysis

Circuit 1: stable and unstable states

Circuit 2: movement between states

Circuit 3: memory

Circuit 4: rigorous analysis

Summary of analysis procedure

Circuit 5: two internal inputs

Circuit 6: a binary storage element

5.4.1 Analysis

5.4.2 Race conditions

5.4.3 The SR flip-flop

Introduction to asynchronous sequential circuit design

Self-assessment

Problems

**Chapter 6 Flip-flops and flip-flop based circuits**

Introduction

6.1.1 Flip-flop types

6.1.2 Flip-flop operation

6.1.3 Timing requirements

6.1.4 Other inputs

Single flip-flop applications

6.2.1 Switch debouncing

6.2.2 Pulse synchroniser

Registers

6.3.1 Shift registers

6.3.2 Application of shift registers

Self-assessment

Problems

**Chapter 7 Counters**

Introduction

7.1.1 Asynchronous and synchronous counters

Asynchronous counters

7.2.1 Mod-N asynchronous counters

Mod-2" synchronous counters

7.3.1 Implementation of the steering logic

Mod-N synchronous counters

7.4.1 Mod-8 counter using D-type flip-flops

7.4.2 Mod-8 counter using JK flip-flops

Example: mod-6 counter

7.5.1 D-type implementation

7.5.2 JK-type implementation

Self-assessment

Problems

**Chapter 8 Synchronous sequential circuits**

**Chapter 9 Choosing a means of implementation**

**Chapter 10 Semiconductor memories**

**Chapter 11 Selecting a design route**

**Chapter 12 Answers to selected self-assessment questions**

**Information Of The Book :**

Title: Introduction to Digital Electronics Download PDF

Size: 13 Mb

Pages: 333

Year : 1998

Format: PDF

Language : English

Author: John Crowe & Barrie Hayes-Gill

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