Introduction to Digital Electronics, 1st Edition by Pearson

Introduction to Digital Electronics, 1st Edition by Pearson

by Betty Lincoin
Released May 2024
Publisher(s): Pearson India
ISBN: 9781322128504

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Book description

Designed to provide a comprehensive and practical insight to the basic concepts of Digital Electronics, this book brings together information on theory, operational aspects and practical applications of digital circuits in a succinct style that is suitable for undergraduate students. Spread across 16 chapters, the book walks the student through the first principles and the Karnaugh mapping reduction technique before proceeding to elaborate on the design and implementation of complex digital circuits. With ample examples and exercises to reinforce theory and an exclusive chapter allotted for electronic experiments, this textbook is an ideal classroom companion for students.

Book Contents –

Acknowledgment
Chapter 1: Digital Systems
Chapter 2: Numbering Systems
Chapter 3: Logic Gates
Chapter 4: Boolean Algebra
Chapter 5: Karnaugh Mapping
Chapter 6: Implementation of Universal Gates
Chapter 7: Integrated Circuits and Logic Families
Chapter 8: Combinational Logic Circuits
Chapter 9: Flip-Flops
Chapter 10: Registers
Chapter 11: Counters
Chapter 12: Memory
Chapter 13: Display Devices
Chapter 14: Convertors
Chapter 15: Computer Fundamentals
Chapter 16: Electronic Exercises
Index

Table of contents

  1. Cover
  2. Contents (1/2)
  3. Contents (2/2)
  4. Preface
  5. Acknowledgement
  6. Chapter 1: Digital Systems
    1. Digital transmission
      1. Multiple Choice Questions
      2. Descriptive Questions
  7. Chapter 2: Numbering Systems
    1. Introduction
    2. Decimal number system
    3. Binary numbering system
    4. Octal numbering system
    5. Hexadecimal numbering system
    6. Conversion of numbers from one base into another
    7. Arithmetic in number system
    8. Binary subtraction
    9. Negative binary numbers
    10. Binary multiplication
    11. Binary division
    12. Number codes
    13. Gray code
    14. Alphanumeric codes
    15. Parity method for error detection (1/2)
    16. Parity method for error detection (2/2)
      1. Multiple Choice Questions
      2. Descriptive Questions
  8. Chapter 3: Logic Gates
    1. Introduction
    2. Positive and negative logic
    3. AND gate
    4. OR gate
    5. NOT gate
    6. Universal gates
    7. NAND as a universal gate
    8. Operation of a NAND gate
    9. NOR gate
    10. Operation of NOR gate
    11. The EXCLUSIVE-OR and EXCLUSIVE-NOR gates
    12. Operation of XOR gate
    13. EX-NOR gate (EXNOR/XNOR)
    14. IEEE symbols
    15. Additional examples (1/3)
    16. Additional examples (2/3)
    17. Additional examples (3/3)
      1. Multiple Choice Questions
      2. Descriptive Questions
  9. Chapter 4: Boolean Algebra
    1. Fundamental symbols Boolean algebra
    2. Boolean algebraic properties
    3. De Morgan’s theorem
    4. Logic axioms
    5. Minterms and maxterms
    6. Additional examples (1/2)
    7. Additional examples (2/2)
      1. Multiple Choice Questions
      2. Descriptive Questions
  10. Chapter 5: Karnaugh Mapping
    1. Karnaugh map for two variables
    2. Karnaugh map for three variables
    3. Karnaugh map for four variables
    4. Karnaugh map for five variables (1/2)
    5. Karnaugh map for five variables (2/2)
    6. Rules in Karnaugh mapping (1/2)
    7. Rules in Karnaugh mapping (2/2)
    8. Additional examples (1/2)
    9. Additional examples (2/2)
      1. Summary
      2. Multiple Choice Questions
      3. Descriptive Questions
  11. Chapter 6: Implementation of Universal Gates
    1. NAND implementation
    2. NOR as a universal gate
    3. Equivalent gates
    4. NAND and NOR implementation to Boolean functions
    5. NAND-AND and AND-NOR implementation
    6. NOR-OR implementation and OR-NAND implementation
      1. Multiple Choice Questions
      2. Descriptive Questions
  12. Chapter 7: Integrated Circuits and Logic Families
    1. Introduction
    2. Classification of ICs
    3. Classification based on size
    4. Common digital IC terminology
    5. Characteristics of logic families
    6. Semiconductor diodes and transistors
    7. Semiconductor diodes
    8. Semiconductor transistors
    9. Logic families (1/3)
    10. Logic families (2/3)
    11. Logic families (3/3)
    12. IC packaging
    13. Troubleshooting in digital devices
      1. Summary
      2. Multiple Choice Questions
      3. Descriptive Questions
  13. Chapter 8: Combinational Logic Circuits
    1. Combinational circuits
    2. Binary adders
    3. Half adder
    4. Full adder
    5. Addition of more than 2 bits by full adder
    6. Parallel adder–subractor
    7. Multiplexers
    8. 2 × 1 Multiplexer
    9. 4 × 1 Multiplexer
    10. Quad 2 × 1 multiplexer
    11. Implementation of Boolean functions using multiplexers
    12. Demultiplexer
    13. Code convertors
    14. Decoders
    15. Encoders
      1. Multiple Choice Questions
      2. Descriptive Questions
  14. Chapter 9: Flip-Flops
    1. Latch
    2. Clocked SR latch
    3. Clock pulses
    4. D latch
    5. Master–slave D flip-flop
    6. Edge-triggered D flip-flop
    7. JK flip-flop
    8. Master–slave JK flip-flop
    9. T flip-flop
    10. Conversions of flip-flops (1/2)
    11. Conversions of flip-flops (2/2)
    12. Applications of flip-flops
    13. Multivibrators
    14. Bistable multivibrator
    15. Monostable multivibrator
    16. Astable multivibrator
    17. Schmitt trigger
    18. IC 555 timer
      1. Multiple Choice Questions
      2. Descriptive Questions
  15. Chapter 10: Registers
    1. Shift registers
    2. Bidirectional shift registers
    3. Universal shift register
    4. Shift registers applications
      1. Multiple Choice Questions
      2. Descriptive Questions
  16. Chapter 11: Counters
    1. MOD-3 counter
    2. MOD-16 or MOD-4 bit counter
    3. Down counters
    4. Designing of ripple counter divided by N
    5. Decade counter or MOD-10 ripple counter
    6. BCD counter
    7. Decoding a counter
    8. UP/DOWN counter
    9. Parallel counter (or) synchronous counter
    10. Decade synchronous counter
    11. Synchronous UP/DOWN counter
    12. IC counters
    13. Applications of counters
    14. Additional examples
      1. Multiple Choice Questions
      2. Descriptive Questions
  17. Chapter 12: Memory (1/2)
  18. Chapter 12: Memory (2/2)
    1. Dynamic random access memory (DRAM)
    2. General DRAM modules
    3. DRAM memory modules
    4. Read only memory
    5. Programmable read only memory
    6. EPROM and EEPROM
    7. Flash memory
    8. Programmable array logic
    9. Programmable logic array
      1. Summary
      2. Multiple Choice Questions
      3. Descriptive Questions
  19. Chapter 13: Display Devices
    1. Cathode ray tubes (CRTs)
    2. Liquid crystal displays (LCD) (1/2)
    3. Liquid crystal displays (LCD) (2/2)
    4. Liquid crystals on silicon (LCOS)
    5. Light emitting diodes (LED)
    6. 7-Segment display
    7. Introduction to organic light emitting diodes (OLED)
    8. Plasma displays
    9. Digital light processing
    10. E-books/e-ink
      1. Multiple Choice Questions
      2. Descriptive Questions
  20. Chapter 14: Convertors
    1. Analog-to-digital conversion
    2. ADC process
    3. Accuracy of A/D conversion
    4. Types of A/D converters
    5. Digital ramp ADC
    6. Successive approximation ADC
    7. Flash A/D converter
    8. Sigma-delta A/D converter
    9. Dual slope convertor
    10. Digital-to-analog convertors (1/2)
    11. Digital-to-analog convertors (2/2)
    12. Applications of DAC
      1. Multiple Choice Questions
      2. Descriptive Questions
  21. Chapter 15: Computer Fundamentals
    1. Introduction
    2. Computer characteristics
    3. Evolution of computers
    4. Generations of computers
    5. Classifi cation of computers
    6. Components of digital computers (1/2)
    7. Components of digital computers (2/2)
    8. Input–output devices
    9. Output devices
    10. Computer software
    11. Computer languages
      1. Multiple Choice Questions
      2. Descriptive Questions
  22. Chapter 16: Electronic Exercises
    1. CMOS gate – CD 4001 NOR
    2. Modulus counter – JK flip-flops
    3. Modulus counter – D flip-flops 7474
    4. Modulus counters – JK flip-flops – synchronous
    5. Modulus counter – decade counter (7490)
    6. Study of 8-bit shift register (7495)
    7. Study of up/down counter
    8. Design of counters
    9. Study of binary adder and subtractor circuits
    10. Study of ALU and BCD adder circuits
    11. Study of DEMUX circuits
    12. Study of digital encoder/decoder circuits
    13. Study of RAM
    14. A/D converter
    15. D/A converter
    16. Study of MUX
  23. Index (1/2)
  24. Index (2/2)

Product information

  • Title: Introduction to Digital Electronics, 1st Edition by Pearson
  • Author(s): Betty Lincoin
  • Release date: May 2024
  • Publisher(s): Pearson India
  • ISBN: 9781322128504