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Digital Electronics, As per AICTE: Principles and Integrated Circuits

Anil K. Maini

ISBN: 9788126508631

608 pages

INR 809

For more information write to us at: acadmktg@wiley.com

Description

The fundamentals and implementation of digital electronics are essential to understanding the design and working of consumer/industrial electronics, communications, embedded systems, computers, security and military equipment. Devices used in applications such as these are constantly decreasing in size and employing more complex technology. It is therefore essential for engineers and students to understand the fundamentals, implementation and application principles of digital electronics, devices and integrated circuits. This is so that they can use the most appropriate and effective technique to suit their technical need.

Chapter-1: Number Systems And Codes

1.1. Analogue Versus Digital

1.2. Introduction To Number Systems

1.3. Decimal Number System

1.4. Binary Number System

1.5. Octal Number System

1.6. Hexadecimal Number System

1.7. Number Systems – Some Common Terms

1.8. Number Representation In Binary

1.9. Finding The Decimal Equivalent

1.10. Decimal-To-Binary Conversion

1.11. Decimal-To-Octal Conversion

1.12. Decimal-To-Hexadecimal Conversion

1.13. Binary-Octal And Octal-Binary Conversions

1.14. Hex-Binary And Binary-Hex Conversion

1.15. Hex-Octal And Octal-Hex Conversions

1.16. The Four Axioms

1.17. Floating-Point Numbers

1.18. Binary Coded Decimal

1.19. Excess-3 Code

1.20. Gray Code

1.21. Alphanumeric Codes

1.22. Seven-Segment Display Code

1.23. Error Detection And Correction Codes

Chapter-2: Digital Arithmetic

2.1. Basic Rules Of Binary Addition And Subtraction

2.2. Addition Of Larger Bit Binary Numbers

2.3. Subtraction Of Larger Bit Binary Numbers

2.4. Bcd Addition And Subtraction In Excess-3 Code

2.5. Binary Multiplication

2.6. Binary Division

2.7. Floating-Point Arithmetic

Chapter-3: Logic Gates And Related Devices

3.1. Positive And Negative Logic

3.2. Truth Table

3.3. Logic Gates

3.4. Universal Gates

3.5. Gates With Open Collector/ Drain Outputs

3.6. Tristate Logic Gates

3.7. And-Or-Invert Gates

3.8. Schmitt Gates

3.9. Special Output Gates

3.10. Fan-Out Of Logic Gates

3.11. Buffers And Transceivers

3.12 Ieee/Ansi Standard Symbols

3.13 Application-Relevant Information

Chapter-4: Logic Families

4.1. Logic Families – Significance And Types

4.2. Characteristic Parameters

4.3. Transistor Transistor Logic (Ttl)

4.4. Emitter Coupled Logic

4.5. Cmos Logic Family

4.6. Bicmos Logic

4.7. Nmos And Pmos Logic

4.8. Integrated Injection Logic (I2l) Family

4.9. Comparison Of Different Logic Families

4.10. Guidelines To Using Ttl Devices

4.11. Guidelines To Handling And Using Cmos Devices

4.12. Interfacing With Different Logic Families

4.13. Classification Of Digital Ics

4.14. Application-Relevant Information

Chapter-5: Boolean Algebra And Simplification Techniques

5.1. Introduction To Boolean Algebra

5.2. Postulates Of Boolean Algebra

5.3. Theorems Of Boolean Algebra

5.4. Simplification Techniques

5.5. Quine-Mccluskey Tabular Method

5.6. Karnaugh Map Method

Chapter-6: Arithmetic Circuits

6.1. Combinational Circuits

6.2. Implementing Combinational Logic

6.3 Arithmetic Circuits - Basic Building Blocks

6.4. Adder - Subtractor

6.5. Bcd Adder

6.6. Carry Propagation–Look-Ahead Carry Generator

6.7. Arithmetic Logic Unit (Alu)

6.8. Multipliers

6.9. Magnitude Comparator

6.10. Application-Relevant Information

Chapter-7: Combinational Logic Circuits

7.1. Multiplexer

7.2. Encoders

7.3. Demultiplexers And Decoders

7.4. Parity Generation And Checking

7.5. Application-Relevant Information

Chapter-8: Flip-Flops And Related Devices

8.1. Multivibrator

8.2. Integrated Circuit (Ic) Multivibrators

8.3. R-S Flip-Flop

8.4. Level-Triggered And Edge-Triggered Flip-Flops

8.5. J-K Flip-Flop

8.6. Toggle Flip-Flop (T Flip-Flop)

8.7. D Flip-Flop

8.8. Synchronous And Asynchronous Inputs

8.9. Flip-Flop Timing Parameters

8.10. Flip-Flop Applications

8.11. Application-Relevant Data

Chapter-9: Counters And Registers

9.1. Ripple (Asynchronous) Counter

9.2. Synchronous Counter

9.3. Modulus Of A Counter

9.4. Binary Ripple Counter - Operational Basics

9.5. Synchronous (Or Parallel) Counters

9.6. Up/Down Counters

9.7. Decade And Bcd Counters

9.8. Presettable Counters

9.9. Decoding A Counter

9.10. Cascading Counters

9.11. Designing Counters With Arbitrary Sequences

9.12. Shift Register

9.13. Shift Register Counters

9.14. Ieee/Ansi Symbology For Counters And Registers

9.15. Application-Relevant Information

Chapter-10: Data Conversion Circuits – D/A And A/D Converters

10.1. Digital-To-Analogue Converters

10.2. D/A Convertor Specifications

10.3. Types Of D/A Converters

10.4. Modes Of Operation

10.5. Bcd-Input D/A Converter

10.6. Integrated Circuit D/A Converters

10.7. D/A Converter Applications

10.8. A/D Converters

10.9. A/D Converter Specifications

10.10. A/D Converter Terminology

10.11. Types Of A/D Converters

10.12. Integrated Circuit A/D Converters

10.13. A/D Converter Applications

Chapter-11: Programmable Logic Devices

11.1. Fixed Logic Versus Programmable Logic

11.2. Programmable Logic Devices: An Overview

11.3. Programmable Roms

11.4. Programmable Logic Array (Pla)

11.5. Programmable Array Logic (Pal)

11.6. Generic Array Logic (Gal)

11.7. Complex Programmable Logic Devices

11.8. Field-Programmable Gate Arrays

11.9. Programmable Interconnect Technologies

11.10. Design And Development Of Programmable Logic Hardware

11.11 Programming Languages

Chapter-12: Microprocessors

12.1. Introduction To Microprocessors

12.2. Evolution Of Microprocessors

12.3. Inside A Microprocessor

12.4. Basic Microprocessor Instructions

12.5. Addressing Modes

12.6. Microprocessor Selection

12.7. Programming Microprocessors

12.8. Risc Versus Cisc Processors

12.9. 8-Bit Microprocesesors

12.10. 16-Bit Microprocessors

12.11. 32-Bit Microprocessors

12.12. Pentium Series Of Microprocessors

12.13. Microprocessors For Embedded Applications

12.14. Peripheral Devices

Chapter-13: Microcontrollers

13.1. Introduction To Microcontroller

13.2. Inside The Microcontroller

13.3. Microcontroller Architecture

13.4. Power Saving Modes

13.5 Interfacing Peripheral Devices With A Microcontroller

Chapter-14: Memory Devices

14.1. Anatomy Of A Computer

14.2. A Computer System

14.3. Computer Memory

14.4. Random Access Memory (Ram)

14.5. Read Only Memory (Rom)

14.6. Expanding Memory Capacity

14.7. Secondary Storage Or Auxillary Storage

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