Practical Electronics for Inventors, Third Edition [NOOK Book]

Overview

THE ELECTRONICS KNOW-HOW YOU NEED TO BECOME A SUCCESSFUL INVENTOR

"If there is a successor to Make: Electronics, then I believe it would have to be Practical Electronics for Inventors....perfect for an electrical engineering student or maybe a high school student with a strong aptitude for electronics....I’ve been anxiously awaiting this update, and it was well worth the...

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Practical Electronics for Inventors, Third Edition

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Overview

THE ELECTRONICS KNOW-HOW YOU NEED TO BECOME A SUCCESSFUL INVENTOR

"If there is a successor to Make: Electronics, then I believe it would have to be Practical Electronics for Inventors....perfect for an electrical engineering student or maybe a high school student with a strong aptitude for electronics....I’ve been anxiously awaiting this update, and it was well worth the wait."--GeekDad (Wired.com)

Spark your creativity and gain the electronics skills required to transform your innovative ideas into functioning gadgets. This hands-on, updated guide outlines electrical principles and provides thorough, easy-to-follow instructions, schematics, and illustrations. Find out how to select components, safely assemble circuits, perform error tests, and build plug-and-play prototypes. Practical Electronics for Inventors, Third Edition, features all-new chapters on sensors, microcontrollers, modular electronics, and the latest software tools.



Coverage includes:



  • Resistors, capacitors, inductors, and transformers

  • Diodes, transistors, and integrated circuits

  • Optoelectronics, solar cells, and phototransistors

  • Sensors, GPS modules, and touch screens

  • Op amps, regulators, and power supplies

  • Digital electronics, LCD displays, and logic gates

  • Microcontrollers and prototyping platforms, including Arduino

  • DC motors, RC servos, and stepper motors

  • Microphones, audio amps, and speakers

  • Modular electronics and prototyping



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Editorial Reviews

Booknews
Covering the same basic information as other introductory electronics books, only presenting the information on particular devices and circuits do before discussing the physics of how they work, this text covers basic circuit components, semiconductors, optoelectronics, integrated circuits, operational amplifiers, filters, oscillators and timers, voltage regulators, audio electronics, digital electronics, DC motors, RC servos, and other devices. Annotation c. Book News, Inc., Portland, OR (booknews.com)
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Product Details

  • ISBN-13: 9780071771344
  • Publisher: McGraw-Hill Education
  • Publication date: 1/10/2013
  • Sold by: Barnes & Noble
  • Format: eBook
  • Edition number: 3
  • Pages: 1040
  • Sales rank: 299,656
  • File size: 76 MB
  • Note: This product may take a few minutes to download.

Meet the Author

Paul Scherz is a physicist/mechanical engineer who received his B.S. in physics from the University of Wisconsin. He is an inventor/hobbyist in electronics, an area he grew to appreciate through his experience at the University's Department of Nuclear Engineering and Engineering Physics and the Department of Plasma Physics.





Dr. Simon Monk has a degree in Cybernetics and Computer Science and a PhD in Software Engineering. Monk spent several years as an academic before he returned to industry, co-founding the mobile software company Momote Ltd. He has been an active electronics hobbyist since his early teens and is a full time writer on hobby electronics and open source hardware. Dr. Monk is the author of numerous electronics books, including 30 Arduino Projects for the Evil Genius and Arduino + Android Projects for the Evil Genius.

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Read an Excerpt

Chapter 1: Introduction to Electronics

Perhaps the most common predicament a newcomer faces when learning electronics is figuring out exactly what it is he or she must learn. What topics are worth covering, and in which general order should they be covered? A good starting point to get a sense of what is important to learn and in what general order is presented in the flowchart in Fig. 1.1. This chart provides an overview of the basic elements that go into designing practical electrical gadgets and represents the information you will find in this book. The following paragraphs describe these basic elements in detail.

At the top of the chart comes the theory. This involves learning about voltage, current, resistance, capacitance, inductance, and various laws and theorems that help predict the size and direction of voltages and currents within circuits. As you learn the basic theory, you will be introduced to basic passive components such as resistors, capacitors, inductors, and transformers.

Next down the line comes discrete passive circuits. Discrete passive circuits include current-limiting networks, voltage dividers, filter circuits, attenuators, and so on. These simple circuits, by themselves, are not very interesting, but they are vital ingredients in more complex circuits.

After you have learned about passive components and circuits, you move on to discrete active devices, which are built from semiconductor materials. These devices consist mainly of diodes (one-way current-flow gates), transistors (electrically controlled switches /amplifiers), and thyristors (electrically controlled switches only).

Once you have covered the discrete active devices, you move onto discrete active/passive circuits. Some of these circuits include rectifiers (ac-to-do converters), amplifiers, oscillators, modulators, mixers, and voltage regulators. This is where things start getting interesting.

To make things easier on the circuit designer, manufacturers have created integrated circuits (ICs) that contain discrete circuits-like the ones mentioned in the last paragraph-that are crammed onto a tiny chip of silicon. The chip usually is housed within a plastic package, where tiny internal wires link the chip to external metal terminals. Integrated circuits such as amplifiers and voltage regulators are referred to as analog devices, which means that they respond to and produce signals of varying degrees of voltage. (This is unlike digital ICs, which work with only two voltage levels.) Becoming familiar with integrated circuits is a necessity for any practical circuit designer.

Digital electronics comes next. Digital circuits work with only two voltage states, high (e.g., 5 V) or low (e.g., 0 V). The reason for having only two voltage states has to do with the ease of data (numbers, symbols, control information) processing and storage. The process of encoding information into signals that digital circuits can use involves combining bits (1 's and 0's, equivalent to high and low voltages) into discrete-meaning "words." The designer dictates what these words will mean to a specific circuit. Unlike analog electronics, digital electronics uses a whole new set of components, which at the heart are all integrated in form. A huge number of specialized ICs are used in digital electronics. Some of these ICs are designed to perform logical operations on input information, others are designed to count, while still others are designed to store information that can be retrieved later on. Digital ICs include logic gates, flip-flops, shift registers, counters, memories, processors, and the like. Digital circuits are what give electrical gadgets "brains." In order for digital circuits to interact with analog circuits, special analog-to-digital (A/D) conversion circuits are needed to convert analog signals into special strings of 1's and 0's. Likewise, digitalto-analog conversion circuits are used to convert strings of 1's and 0's into analog signals.

Throughout your study of electronics, you will learn about various input-output (I/O) devices (transducers). Input devices convert physical signals, such as sound, light, and pressure, into electrical signals that circuits can use. These devices include microphones, phototransistors, switches, keyboards, thermistors, strain gauges, generators, and antennas. Output devices convert electrical signals into physical signals. Output devices include lamps, LED and LCD displays, speakers, buzzers, motors (dc, servo, stepper), solenoids, and antennas. It is these I/O devices that allow humans and circuits to communicate with one another. And finally comes the construction/ testing phase. This involves learning to read schematic diagrams, constructing circuit prototypes using breadboards, testing prototypes (using multimeters, oscilloscopes, and logic probes), revising prototypes (if needed), and constructing final circuits using various tools and special circuit boards...

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Table of Contents

Part I - Theory
Chapter 1. Introduction
Chapter 2. Theory
Part II - Devices
Chapter 3. Basic Electronic Components
Chapter 4. Discrete Semiconductors
Chapter 5. Optoelectronics
Chapter 6. Sensors
Chapter 7. Hands-on Electronics
Part III - Design
Chapter 8. Operational Amplifiers
Chapter 9. Filters
Chapter 10. Oscillators and Timers
Chapter 11. Voltage Regulators and Power Supplies
Chapter 12. Digital Electronics
Chapter 13. Microcontrollers
Chapter 14. Electromechanical Devices
Chapter 15. Audio Electronics
Chapter 16. Applied Electronics
Part IV - Appendixes
Appendix A. Power Distribution and Home Wiring
Appendix B. Error Analysis
Appendix C. Useful Facts and Formulas
Appendix D. Component Data, List of Logic ICs, Foreign Semiconductor Codes
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