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Digital electronics is a little more abstract than analog electronics, and trying to find a useful starter book can be tough. For those interested in learning digital electronics, with a practical approach, Beginning Digital Electronics Through Projects is for you. It is published in the same tradition as Beginning Analog Electronics Through Projects, Andrew Singmin's revision to the popular Beginning Electronics Through Projects. Beginning Digital Electronics Through Projects provides practical exercises, building techniques, and ideas for over thirty-five useful digital projects. Some digital logic knowledge is necessary, but the theory is limited to "need-to-know" information that will allow you to get started right away without complex math. Many components in this text are common to either analog or digital electronics, and beginners or hobbyists making their start here will find and overview of commonly used components and their functions described in everyday terms. Each of the projects builds on the theory and component knowledge developed in earlier chapters, establishing progressively more ambitious goals. Step-by-step learning instructions help you determine the best ways of working with such projects as Schmitt Trigger Circuits, Versatile ICs, Digital Support Circuits, and much more. Two interesting wireless projects (an FM receiver and an FM transmitter) bring the final chapters of this book to a close. Provides a logical step by step project-based way to learn the basics of digital electronics Gives the reader hands-on learning experiences through building simple projects Explains circuit design, circuit testing, and how to design your own projects
Analog electronics is the simplest way to start a fun, informative, learning program. Beginning Analog Electronics Through Projects, Second Edition was written with the needs of beginning hobbyists and students in mind. This revision of Andrew Singmin's popular Beginning Electronics Through Projects provides practical exercises, building techniques, and ideas for useful electronics projects. Additionally, it features new material on analog and digital electronics, and new projects for troubleshooting test equipment. Published in the tradition of Beginning Electronics Through Projects and Beginning Digital Electronics Through Projects, this book limits theory to "need-to-know" information that will allow you to get started right away without complex math. Commonly used electronic components and their functions are described briefly in everyday terms. Ideal for progressive learning, each of the projects builds on the theory and component knowledge developed in earlier chapters. Step-by-step instructions facilitate one's learning of techniques for component identification, soldering, troubleshooting, and much more. Includes instructions for using a general purpose assembly board Practical, enjoyable, useful approach to learning about electronics Features twelve easy and useful projects designed to familiarize beginners and hobbyists with the most commonly used ICs
This text, through digital experiments, aims to teach the reader practical electronics circuit theory and building techniques. Step-by-step instructions are used to teach techniques for component identification, soldering and troubleshooting.
A practical guide that explains how TTL (Transistor to Transistor Logic) circuits are designed and interfaced to "real world" circuits. Includes over 20 projects to teach digital circuits design, including a design for a simple 8-bit computer system .Complete with a reusable PCB (Printed Circuit Board) that can be used for all the projects in the book.
A great way for technicians to learn about digital techniques and computers DESCRIPTION As computer technology has evolved, there have been two groups of people: the hardware group that understands the machine, and the software group that codes in high-level programming languages. This book puts the two together by providing an understanding of the nuts and bolts of digital devices and implementing hardware operations by coding a microController. We use the Arduino microController, which is embraced by the world-wide maker community of well over 300,000 people of all ages and technical backgrounds. The projects start at ground level and scaffold upward to fun challenges. Ê We begin with a background on digital circuitry and cover the operation of the Arduino microController. From there, we examine digital logic gates, which are the building blocks of computer hardware, and see how they make decisions. Next, we explore how digital devices work with numbers and do arithmetic along with how they count binary numbers. We also see how data moves between points in serial or parallel form as we build and test the circuitry to do the work. The topic of random number generation is explained, and we design a few simple computer games to see how this all works and have some fun. The book leads up to the reader producing a final capstone project. The format of the book is perfect for a digital electronics high school or college course, but easy enough to follow so that anyone with a basic background in DC circuits will have an enjoyable time with the many projects. KEY FEATURES 1. Work with (gates) the building blocks of computers 2. Discover logic circuits that can make decisions 3. See how computers work with ones and zeros 4. Understand how computers count and keep track of numbers 5. Build and test memory circuits 6. Implement hardware using code 7. Have fun while learning about the Arduino WHAT WILL YOU LEARNÊ You will learn that there is nothing mysterious about the digital devices that make up a computer, or the code that programs a computer to function. We cover the basic hardware as it is constructed into functional sections of a modern computer. You will learn about gates, flip-flops, registers, counters, and data I/O. WHO THIS BOOK IS FOR Anyone with a background in electricity and electronics with the knowledge of constructing circuits on a breadboard should have no problem using this book. It is designed for people with inquisitive minds in the hope that both the hardware projects and code samples are modified by the reader to gain additional information.Ê TABLE OF CONTENTSÊÊ 1. A Bit about Arduino. 2. Digital Function Implementation. 3. Designing Functional Computer Circuits. 4. Memory Devices. 5. Registers and Numbers. 6. Counters. 7. Multiplexing and demultiplexing. 8. Addresses, specialized counters, and serial monitor interaction. 9. Random Numbers 10. Interactive I/O 11. Capstone project
Jump start your journey with electronics! If you’ve thought about getting into electronics, but don’t know where to start, this book gives you the information you need. Starting with the basics of electricity and circuits, you'll be introduced to digital electronics and microcontrollers, capacitors and inductors, and amplification circuits – all while gaining the basic tools and information you need to start working with low-power electronics. Electronics for Beginners walks the fine line of focusing on projects-based learning, while still keeping electronics front and center. You'll learn the mathematics of circuits in an uncomplicated fashion and see how schematics map on to actual breadboards. Written for the absolute beginner, this book steers clear of being too math heavy, giving readers the key information they need to get started on their electronics journey. What You’ll Learn Review the basic “patterns” of resistor usage—pull up, pull down, voltage divider, and current limiter Understand the requirements for circuits and how they are put together Read and differentiate what various parts of the schematics do Decide what considerations to take when choosing components Use all battery-powered circuits, so projects are safe Who This Book Is For Makers, students, and beginners of any age interested in getting started with electronics.
Why do the lights in a house turn on when you flip a switch? How does a remote-controlled car move? And what makes lights on TVs and microwaves blink? The technology around you may seem like magic, but most of it wouldn’t run without electricity. Electronics for Kids demystifies electricity with a collection of awesome hands-on projects. In Part 1, you’ll learn how current, voltage, and circuits work by making a battery out of a lemon, turning a metal bolt into an electromagnet, and transforming a paper cup and some magnets into a spinning motor. In Part 2, you’ll make even more cool stuff as you: –Solder a blinking LED circuit with resistors, capacitors, and relays –Turn a circuit into a touch sensor using your finger as a resistor –Build an alarm clock triggered by the sunrise –Create a musical instrument that makes sci-fi soundsThen, in Part 3, you’ll learn about digital electronics—things like logic gates and memory circuits—as you make a secret code checker and an electronic coin flipper. Finally, you’ll use everything you’ve learned to make the LED Reaction Game—test your reaction time as you try to catch a blinking light!With its clear explanations and assortment of hands-on projects, Electronics for Kids will have you building your own circuits in no time.
Electricity -- Electronic components -- Semiconductors -- Photonic semiconductors -- Integrated circuits -- Digital integrated circuits -- Linear integrated circuits -- Circuit assembly tips -- 100 electronic circuits.