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Digital electronics

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Anak judul : Principles and applications.
Terdapat bibliografi dan indeks.

CONTENTS:
1. Digital Electronics
1.1 What Is a Digital Signal?
1.2 Why Use Digital Circuits?
1.3 Where Are Digital Circuits Used?
1.4 How Do You Generate a Digital Signal?
1.5 How Do You Test for a Digital Signal?
1.6 Simple Instruments

2. Numbers We Use in Digital Electronics
2.1 Counting in Decimal and Binary
2.2 Place Value
2.3 Binary to Decimal Conversion
2.4 Decimal to Binary Conversion
2.5 Electronic Translators
2.6 Hexadecimal Numbers
2.7 Octal Numbers
2.8 Bits, Bytes, Nibbles and Word Size

3. Logic Gates
3.1 The AND Gate
3.2 The OR Gate
3.3 The Inverter and Buffer
3.4 The NAND Gate
3.5 The NOR Gate
3.6 The Exclusive OR Gate
3.7 The Exclusive NOR Gate
3.8 The NAND Gate as a Universal Gate
3.9 Gates with More Than Two Inputs
3.10 Using Inverters to Convert Gates
3.11 Practical TTL Logic Gates
3.12 Practical CMOS Logic Gates
3.13 Troubleshooting Simple Gate Circuits
3.14 IEEE Logic Symbols
3.15 Simple Logic Gate Applications
3.16 Logic Functions Using Software (BASIC Stamp Module)

4. Combining Logic Gates
4.1 Constructing Circuits from Boolean Expressions
4.2 Drawing a Circuit from a Maxterm Boolean Expression
4.3 Truth Tables and Boolean Expressions
4.4 Sample Problem
4.5 Simplifying Boolean Expressions
4.6 Karnaugh Maps
4.7 Karnaugh Maps with Three Variables
4.8 Karnaugh Maps with Four Variables
4.9 More Karnaugh Maps
4.10 A Five-Variable Karnaugh Map
4.11 Using NAND Logic
4.12 Computer Simulations: Logic Converter
4.13 Solving Logic Problems: Data Selectors
4.14 Programmable Logic Devices (PLDs)
4.15 Using De Morgan's Theorems
4.16 Solving a Logic Problem (BASIC Stamp Module)

5. IC Specifications and Simple Interfacing
5.1 Logic Levels and Noise Margin
5.2 Other Digital IC Specifications
5.3 MOS and CMOS ICs
5.4 Interfacing TTL and CMOS with Switches
5.5 Interfacing TTL and CMOS with LEDs
5.6 Interfacing TTL and CMOS ICs
5.7 Interfacing with Buzzers, Relays, Motors, and Solenoids
5.8 Optoisolators
5.9 Interfacing with Servo and Stepper Motors
5.10 Using Hall-Effect Sensors
5.11 Troubleshooting Simple Logic Circuits
5.12 Interfacing the Servo (BASIC Stamp Module)

6. Encoding, Decoding, and Seven-Segment Displays
6.1 The 8421 BCD Code
6.2 The Excess-3 Code
6.3 The Gray Code
6.4 The ASCII Code
6.5 Encoders
6.6 Seven-Segment LED Displays
6.7 Decoders
6.8 BCD-to-Seven-Segment Decoder/Drivers
6.9 Liquid-Crystal Displays
6.10 Using CMOS to Drive an LCD Display
6.11 Vacuum Fluorescent Displays
6.12 Driving a VF Display
6.13 Troubleshooting a Decoding Circuit

7. Flip-Flops
7.1 The R-S Flip-Flop
7.2 .The Clocked R-S Flip-Flop
7.3 The D Flip-Flop
7.4 The J-K Flip-Flop
7.5 IC Latches
7.6 Triggering Flip-Flops
7.7 Schmitt Trigger
7.8 IEEE Logic Symbols
7.9 Application: Latched Encoder-Decoder System

8. Counters
8.1 Ripple Counters
8.2 Mod-10 Ripple Counters
8.3 Synchronous Counters
8.4 Down Counters
8.5 Self-Stopping Counters
8.6 Counters as Frequency Dividers
8.7 TTL IC Counters
8.8 CMOS IC Counters
8.9 A Three-Digit BCD Counter
8.10 Counting Real-World Events
8.11 Using a CMOS Counter in an Electronic Game
8.12 Using Counters
8.13 An Experimental Tachometer
8.14 Troubleshooting a Counter

9. Shift Registers
9.1 Serial-Load Shift Registers
9.2 Parallel-Load Shift Registers
9.3 A Universal Shift Register
9.4 Using the 74194 IC Shift Register
9.5 An 8-Bit CMOS Shift Register
9.6 Using Shift Registers: Digital Roulette
9.7 Troubleshooting a Simple Shift Register

10. Arithmetic Circuits
10.1 Binary Addition
10.2 Half Adders
10.3 Full Adders
10.4 3-Bit Adders
10.5 Binary Subtraction
10.6 Parallel Subtractors
10.7 IC Adders
10.8 Binary Multiplication
10.9 Binary Multipliers
10.10 2s Complement Notation, Addition, and Subtraction
10.11 2s Complement Adders/Subtractors
10.12 Troubleshooting a Full Adder

11. Memories
11.1 Overview of Memory
11.2 Random-Access Memory (RAM)
11.3 Static RAM ICs
11.4 Using a SRAM
11.5 Read-Only Memory (ROM)
11.6 Using a ROM
11.7 Programmable Read-Only Memory [PROM]
11.8 Nonvolatile Read/Write Memory
11.9 Memory Packaging
11.10 Computer Bulk Storage Devices
11.11 Digital Potentiometer: Using NV Memory

12. Simple Digital Systems
12.1 Elements of a System
12.2 A Digital System on an IC
12.3 Digital Games
12.4 The Digital Clock
12.5 The LSI Digital Clock
12.6 The Frequency Counter
12.7 An Experimental Frequency Counter
12.8 LCD Timer with Alarm
12.9 Simple Distance Sensing
12.10 JTAG/Boundary Scan

13. Computer Systems
13.1 The Computer
13.2 The Microcomputer
13.3 Microcomputer Operation
13.4 Microcomputer Address Decoding
13.5 Data Transmission
13.6 Detecting Errors in Data Transmissions
13.7 Data Transmission in a Computer System
13.8 Programmable Logic Controllers (PLCs)
13.9 Microcontrollers
13.10 The BASIC Stamp Microcontroller Modules
13.11 Digital Signal Processing
13.12 DSP in a Digital Camera
13.13 Microcontroller: Photo Input and Servo Motor Output

14. Connecting with Analog Devices
14.1 D/A Conversion
14.2 Operational Amplifiers
14.3 A Basic D/A Converter
14.4 Ladder-Type D/A Converters
14.5 An A/D Converter
14.6 Voltage Comparators
14.7 An Elementary Digital Voltmeter
14.8 Other A/D Converters
14.9 A/D Converter Specifications
14.10 An A/D Converter IC
14.11 Digital Light Meter
14.12 Digitizing Temperature
14.13 Answers to Self-Tests.

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Availability

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Detail Information

Series Title

null

Call Number

621.381 TOK d

Publisher

New York : McGraw-Hill., 2014

Collation

xvi, 560 hlm.; ilus.; 27 cm.

Language

English

ISBN/ISSN

9781259060922

Classification

621.381

Content Type

-

Media Type

-

Carrier Type

-

Edition

Eighth Edition

Subject(s)

Digital Electronics
Elektronika Digital

Specific Detail Info

-

Statement of Responsibility

Roger Tokheim

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