| Description |
1 online resource (505 pages) : illustrations |
| Series |
Maker innovations series |
|
Maker innovations series
|
| Contents |
Intro -- Contents -- About the Author -- About the Technical Reviewer -- Introduction -- Chapter 1: Introduction to Logic Gates -- Integrated Circuits, or ICs -- Gate Technology -- The Main Differences Between TTL and CMOS -- Logic Families -- Fan-Out and Fan-In -- Unused Inputs -- Handling Logic ICs -- The Historical Circuits of the Logic Gates -- The Laws of Logic -- Diode-Resistor (DR) Logic -- Analysis of Diode-Resistor Circuit 1 -- Analysis of Diode-Resistor Circuit 2 -- Analysis of Circuit 3 -- The "4000" Series -- The PLA, or Programmable Logic Array -- The Binary Number System |
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Binary Numbers -- Converting from Decimal to Binary -- Converting from Binary to Decimal -- Exercise 1 -- Adding and Subtracting Binary Numbers -- Worked Example -- Exercise 2 -- Subtracting Binary Numbers -- Worked Example -- Exercise 3 -- The Logic Gates -- The AND Gate -- The NAND Gate -- The OR Gate -- The NOR Gate -- The EXOR Gate -- The NOT Gate or Inverter -- Summary -- Chapter 2: Boolean Algebra -- What Is Boolean Algebra -- The Basic Concept -- The NOT Gate -- The AND and NAND Gates -- The OR and NOR Gates -- The Exclusive OR Gate, That Is, the EXOR Gate |
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Deriving Boolean Expressions from Logic Circuits -- Boolean Derivation Circuit 1 -- Boolean Derivation Circuit 2 -- Boolean Derivation Circuit 3 -- Building Logic Circuits from Boolean Expressions -- Build Logic Circuit Example 1 -- Build Logic Circuit Example 2 -- Build Logic Circuit Example 3 -- Exercise 1 -- Exercise 2 -- The Laws of Boolean Algebra -- Commutative Law -- Commutative Example 1 -- Commutative Example 2 -- Associative Law -- Associative Law Example 1 -- Associative Law Example 2 -- Distributive Law -- Distributive Law Example 1 -- Distributive Law Example 2 |
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Distribution Law Example 3 -- Absorption Law -- De Morgan's Theory -- De Morgan's Example 1 -- De Morgan's Example 2 -- De Morgan's Examples 3 -- The OR Function with NAND Gates -- Summary -- Chapter 3: Simplifying Boolean Expressions -- Some Fundamental Identities -- The Inverse Law -- The Identity Law -- The Null Law -- The Idempotent Law -- The OR Version of the Idempotent Law -- The OR Version of the Identity Law -- The OR Version of the Null Law -- The OR Version of the Inverse Law -- Using Boolean Algebra to Minimize Expressions -- Simplification Example 1 -- Simplification Example 2 |
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Simplification Example 3 -- Simplification Example 4 -- Simplification Example 5 -- Simplification Example 6 -- Karnaugh Maps -- Karnaugh Map Example 1 -- Using the Karnaugh Map -- Karnaugh Map Example 2 -- Simplification Examples -- Simplification Example 7 -- The 1st and 2nd Canonical Formats and the Minterms and Maxterms -- The 2nd Canonical Format -- Simplification Example 8 -- Simplification Example 9 -- Simplification Example 10 -- Simplification Example 11 -- Exercise 3.1 -- Exercise 3.2 -- Exercise 3.3 -- Exercise 3.4 -- Summary -- Chapter 4: Moving On from the NAND Gate -- The SR Latch |
| Summary |
Discover the essential knowledge and practical skills to excel in the dynamic field of digital electronics with "Mastering Digital Electronics." From the fundamentals of diode resistor logic to unraveling the intricacies of TTL and CMOS logic gates, this book takes you on a journey through the evolution of digital electronics. Starting with the humble SR latch and progressing to the revolutionary JK flip flop that powers today's computer technology, you'll gain a solid foundation in binary arithmetic, Boolean algebra, and the representation and optimization of digital circuits. The book gives a firm understanding of digital electronics, then moves on to using standard design methods, such as state diagrams, to design everyday logic circuits such as counters, shift registers, PISO, and SIPO registers. It delves into how to design some challenging digital circuits such as a crossroad set of traffic lights with a pelican crossing and how to use the 555 timer to control a variety of applications. At every stage of the book, you will be learning how to use TINA version 12, an industry standard ECAD and many of its functions. Moreover, the book ventures into using the software to simulate and so confirm all the circuits you design. For readers interested in advancing to the practical implementation of the circuits discussed, the book provides opportunities to design PCB circuit boards for selected circuits using the software. This book will suit any student of digital electronics at any level and provide them with essential reference material for them to start a career in digital electronics |
| Notes |
Includes index |
| Subject |
Digital electronics.
|
| Form |
Electronic book
|
| ISBN |
9781484298787 |
|
1484298780 |
|
