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AVR Programming

AVR Programming Author Elliot Williams
ISBN-10 9781449355753
Release 2014-01-27
Pages 474
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Atmel's AVR microcontrollers are the chips that power Arduino, and are the go-to chip for many hobbyist and hardware hacking projects. In this book you'll set aside the layers of abstraction provided by the Arduino environment and learn how to program AVR microcontrollers directly. In doing so, you'll get closer to the chip and you'll be able to squeeze more power and features out of it. Each chapter of this book is centered around projects that incorporate that particular microcontroller topic. Each project includes schematics, code, and illustrations of a working project. Program a range of AVR chips Extend and re-use other people’s code and circuits Interface with USB, I2C, and SPI peripheral devices Learn to access the full range of power and speed of the microcontroller Build projects including Cylon Eyes, a Square-Wave Organ, an AM Radio, a Passive Light-Sensor Alarm, Temperature Logger, and more Understand what's happening behind the scenes even when using the Arduino IDE



Make AVR Programming

Make  AVR Programming Author Elliot Williams
ISBN-10 1449355781
Release 2013-08-31
Pages 451
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Features intermediate and advanced projects that demonstrate the capabilities of Atmel AVR series microcontrollers.



Embedded C Programming and the Atmel AVR

Embedded C Programming and the Atmel AVR Author Richard Barnett
ISBN-10 9781418039592
Release 2006-06-05
Pages 560
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Enter the world of embedded programming and microcontroller applications! One of the only books available today that uses the increasingly popular and cost-effective Atmel AVR embedded controller as the platform and application for learning, Embedded C Programming and the Atmel AVR, 2E is the perfect choice for novices. Featuring a host of fully-functional example applications, this highly innovative book enables users to adopt a learn by doing approach as they develop the knowledge and skills needed to achieve proficiency. Following an introduction to Atmel AVR RISC processors, readers are launched immediately into an embedded C language tutorial. Here, they’ll experiment with variables and constants, operators and expressions, control statements, pointers and arrays, memory types, preprocessor directives, real-time methods, and more! In addition to a comprehensive library functions reference, an entire chapter on the CodeVision AVR C Compiler provides clear, step-by-step instruction in IDE installation and operation, mixing Assembler with C, and using the Code Wizard Code Generator. Use of peripherals such as keypads, LCD displays, and other common embedded microcontroller-related devices is also explored fully in this all-inclusive, state-of-the-art programmer’s how-to and reference manual. Important Notice: Media content referenced within the product description or the product text may not be available in the ebook version.



Practical AVR Microcontrollers

Practical AVR Microcontrollers Author Alan Trevennor
ISBN-10 9781430244462
Release 2012-10-17
Pages 416
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If you’ve heard of Arduino or even used it in your own projects, you probably know that the AVR microcontroller is the brain of the Arduino. In Practical AVR Microcontrollers, you’ll learn how to use the AVR microcontroller to make your own nifty projects and gadgets. You’ll start off with the basics in part one: setting up your development environment and learning how the "naked" AVR differs from the Arduino. Then you’ll gain experience by building a few simple gizmos and learning how everything can be interconnected. In part two, we really get into the goodies: projects! Each project will show you exactly what software and hardware you need, and will provide enough detail that you can adapt it to your own needs and parts availability. Some of the projects you’ll make: An illuminated secret panel A hallway lighting system with a waterfall effect A crazy lightshow Visual effects gizmos like a Moire wheel and shadow puppets In addition, you'll design and implement some home automation projects, including working with wired and wireless setups. Along the way, you'll design a useable home automation protocol and look at a variety of hardware setups. Whether you’re new to electronics, or you just want to see what you can do with an AVR outside of an Arduino, Practical AVR Microcontrollers is the book for you. What you’ll learn How programming the AVR is different from programming an Arduino How to use the Arduino IDE to program the AVR, and when to use AVR Studio How to network your AVR devices and use them in home automation How to add intelligence to your AVR devices How to make games with AVR Who this book is for Beginning electronics enthusiasts as well as Arduino fans who want to go beyond the Arduino with the AVR microcontroller. Table of Contents Part 1: The Basics 1. A Brief History of Microcontrollers 2. Building our AVR Test Bed 3. Arduino and the Naked AVR 4. Moving On! 5. Smarten Up! 6. Conversing Digitally Part 2: The Projects 7. Introduction to the projects section 8. Good Evening, Mr. Bond! Your Secret Panel 9. Here Kitty, Kitty: Rainbow Beams to Drive Your Pets Crazy 10. WordDune: How Much Do You Really See? 11. A Waterfall of Lights: The Passageway Lighting System 12. Moving to Mesmerize: Small Projects with Nifty Effects 13. Home Automation: Small Projects using CAN Bus Controller Area Networks Appendix A: Common Components Appendix B: Digital Electronics Basics Appendix C: Breadboards Appendix D: Serial Communications Basics



C Programming for Microcontrollers

C Programming for Microcontrollers Author Joe Pardue
ISBN-10 0976682206
Release 2005
Pages 300
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Do you want a low cost way to learn C programming for microcontrollers? This book shows you how to use Atmel's $19.99 AVR Butterfly board and the FREE WinAVR C compiler to make a very inexpensive system for using C to develop microcontroller projects. Students will find the thorough coverage of C explained in the context of microcontrollers to be an invaluable learning aide. Professionals, even those who already know C, will find many useful tested software and hardware examples that will speed their development work. Test drive the book by going to www.smileymicros.com and downloading the FREE 30 page pdf file: Quick Start Guide for using the WinAVR Compiler with ATMEL's AVR Butterfly which contains the first two chapters of the book and has all you need to get started with the AVR Butterfly and WinAVR. In addition to an in-depth coverage of C, the book has projects for: 7Port I/O reading switches and blinking LEDs 7UART communication with a PC 7Using interrupts, timers, and counters 7Pulse Width Modulation for LED brightness and motor speed control 7Creating a Real Time Clock 7Making music 7ADC: Analog to Digital Conversion 7DAC: Digital to Analog Conversion 7Voltage, light, and temperature measurement 7Making a slow Function Generator and Digital Oscilloscope 7LCD programming 7Writing a Finite State Machine The author (an Electrical Engineer, Official Atmel AVR Consultant, and award winning writer) makes the sometimes-tedious job of learning C easier by often breaking the in-depth technical exposition with humor and anecdotes detailing his personal experience and misadventures.



Arduino Microcontroller

Arduino Microcontroller Author Steven F. Barrett
ISBN-10 9781608458592
Release 2012-06-01
Pages 353
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This book is about the Arduino microcontroller and the Arduino concept. The visionary Arduino team of Massimo Banzi, David Cuartielles, Tom Igoe, Gianluca Martino, and David Mellis launched a new innovation in microcontroller hardware in 2005, the concept of open source hardware. Their approach was to openly share details of microcontroller-based hardware design platforms to stimulate the sharing of ideas and promote innovation. This concept has been popular in the software world for many years. This book is intended for a wide variety of audiences including students of the fine arts, middle and senior high school students, engineering design students, and practicing scientists and engineers. To meet this wide audience, the book has been divided into sections to satisfy the need of each reader. The book contains many software and hardware examples to assist the reader in developing a wide variety of systems. For the examples, the Arduino UNO R3 and the Atmel ATmega328 is employed as the target processor. The second edition has been updated with the latest on the Arduino UNO R3 processor, changes to the Arduino Development Environment and several extended examples. Table of Contents: Getting Started / Programming / Embedded Systems Design / Serial Communication Subsystem / Analog to Digital Conversion (ADC) / Interrupt Subsystem / Timing Subsystem / Atmel AVR Operating Parameters and Interfacing



Some Assembly Required

Some Assembly Required Author Timothy S Margush
ISBN-10 9781439897003
Release 2016-04-19
Pages 643
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A family of internationally popular microcontrollers, the Atmel AVR microcontroller series is a low-cost hardware development platform suitable for an educational environment. Until now, no text focused on the assembly language programming of these microcontrollers. Through detailed coverage of assembly language programming principles and techniques, Some Assembly Required: Assembly Language Programming with the AVR Microcontroller teaches the basic system capabilities of 8-bit AVR microcontrollers. The text illustrates fundamental computer architecture and programming structures using AVR assembly language. It employs the core AVR 8-bit RISC microcontroller architecture and a limited collection of external devices, such as push buttons, LEDs, and serial communications, to describe control structures, memory use and allocation, stacks, and I/O. Each chapter contains numerous examples and exercises, including programming problems. By studying assembly languages, computer scientists gain an understanding of the functionality of basic processors and how their capabilities support high level languages and applications. Exploring this connection between hardware and software, this book provides a foundation for understanding compilers, linkers, loaders, and operating systems in addition to the processors themselves.



Programming and Interfacing Atmel s Avrs

Programming and Interfacing Atmel s Avrs Author Thomas Grace
ISBN-10 1305509994
Release 2015-03-11
Pages 272
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Atmel's AVR microcontrollers are the go-to chip for many hobbyists and hardware hacking projects. In this book, PROGRAMMING AND INTERFACING ATMEL'S AVRS, you will learn how to program and interface using three of Atmel's microcontrollers--the ATtiny13, the ATmega328, and the ATmega32. The book begins with the binary number system and move into programming in assembly, then C and C++. Very little prior engineering knowledge is assumed. You'll work step-by-step through sections on connecting to devices such as DC motors, servos, steppers, touch pads, GPS sensors, temperature sensors, accelerometers, and more. Get started working with Atmel's AVRs today, with PROGRAMMING AND INTERFACING ATMEL'S AVRS.



Embedded Systems Design with the Atmel AVR Microcontroller

Embedded Systems Design with the Atmel AVR Microcontroller Author Steven F. Barrett
ISBN-10 9781608451272
Release 2009-09-15
Pages 300
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This textbook provides practicing scientists and engineers an advanced treatment of the Atmel AVR microcontroller. This book is intended as a follow-on to a previously published book, titled Atmel AVR Microcontroller Primer: Programming and Interfacing. Some of the content from this earlier text is retained for completeness. This book will emphasize advanced programming and interfacing skills. We focus on system level design consisting of several interacting microcontroller subsystems. The first chapter discusses the system design process. Our approach is to provide the skills to quickly get up to speed to operate the internationally popular Atmel AVR microcontroller line by developing systems level design skills. We use the Atmel ATmega164 as a representative sample of the AVR line. The knowledge you gain on this microcontroller can be easily translated to every other microcontroller in the AVR line. In succeeding chapters, we cover the main subsystems aboard the microcontroller, providing a short theory section followed by a description of the related microcontroller subsystem with accompanying software for the subsystem. We then provide advanced examples exercising some of the features discussed. In all examples, we use the C programming language. The code provided can be readily adapted to the wide variety of compilers available for the Atmel AVR microcontroller line. We also include a chapter describing how to interface the microcontroller to a wide variety of input and output devices. The book concludes with several detailed system level design examples employing the Atmel AVR microcontroller. Table of Contents: Embedded Systems Design / Atmel AVR Architecture Overview / Serial Communication Subsystem / Analog to Digital Conversion (ADC) / Interrupt Subsystem / Timing Subsystem / Atmel AVR Operating Parameters and Interfacing / System Level Design



The Atmel AVR Microcontroller MEGA and XMEGA in Assembly and C

The Atmel AVR Microcontroller  MEGA and XMEGA in Assembly and C Author Han-Way Huang
ISBN-10 9781285500089
Release 2013-01-14
Pages 816
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Offering comprehensive, cutting-edge coverage, THE ATMEL AVR MICROCONTROLLER: MEGA AND XMEGA IN ASSEMBLY AND C delivers a systematic introduction to the popular Atmel 8-bit AVR microcontroller with an emphasis on the MEGA and XMEGA subfamilies. It begins with a concise and complete introduction to the assembly language programming before progressing to a review of C language syntax that helps with programming the AVR microcontroller. Emphasis is placed on a wide variety of peripheral functions useful in embedded system design. Vivid examples demonstrate the applications of each peripheral function, which are programmed using both the assembly and C languages. Important Notice: Media content referenced within the product description or the product text may not be available in the ebook version.



Making Embedded Systems

Making Embedded Systems Author Elecia White
ISBN-10 9781449320584
Release 2011-10-25
Pages 330
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Interested in developing embedded systems? Since they don’t tolerate inefficiency, these systems require a disciplined approach to programming. This easy-to-read guide helps you cultivate a host of good development practices, based on classic software design patterns and new patterns unique to embedded programming. Learn how to build system architecture for processors, not operating systems, and discover specific techniques for dealing with hardware difficulties and manufacturing requirements. Written by an expert who’s created embedded systems ranging from urban surveillance and DNA scanners to children’s toys, this book is ideal for intermediate and experienced programmers, no matter what platform you use. Optimize your system to reduce cost and increase performance Develop an architecture that makes your software robust in resource-constrained environments Explore sensors, motors, and other I/O devices Do more with less: reduce RAM consumption, code space, processor cycles, and power consumption Learn how to update embedded code directly in the processor Discover how to implement complex mathematics on small processors Understand what interviewers look for when you apply for an embedded systems job "Making Embedded Systems is the book for a C programmer who wants to enter the fun (and lucrative) world of embedded systems. It’s very well written—entertaining, even—and filled with clear illustrations." —Jack Ganssle, author and embedded system expert.



Arduino Internals

Arduino Internals Author Dale Wheat
ISBN-10 9781430238836
Release 2012-01-15
Pages 392
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Arduino Internals guides you to the heart of the Arduino board. Author Dale Wheat shares his intimate knowledge of the Arduino board—its secrets, its strengths and possible alternatives to its constituent parts are laid open to scrutiny in this book. You'll learn to build new, improved Arduino boards and peripherals, while conforming to the Arduino reference design. Arduino Internals begins by reviewing the current Arduino hardware and software landscape. In particular, it offers a clear analysis of how the ATmega8 board works and when and where to use its derivatives. The chapter on the "hardware heart" is vital for the rest of the book and should be studied in some detail. Furthermore, Arduino Internals offers important information about the CPU running the Arduino board, the memory contained within it and the peripherals mounted on it. To be able to write software that runs optimally on what is a fairly small embedded board, one must understand how the different parts interact. Later in the book, you'll learn how to replace certain parts with more powerful alternatives and how to design Arduino peripherals and shields. Since Arduino Internals addresses both sides of the Arduino hardware-software boundary, the author analyzes the compiler toolchain and again provides suggestions on how to replace it with something more suitable for your own purposes. You'll also learn about how libraries enable you to change the way Arduino and software interact, and how to write your own library implementing algorithms you've devised yourself. Arduino Internals also suggests alternative programming environments, since many Arduino hackers have a background language other than C or Java. Of course, it is possible to optimize the way in which hardware and software interact—an entire chapter is dedicated to this field. Arduino Internals doesn't just focus on the different parts of Arduino architecture, but also on the ways in which example projects can take advantage of the new and improved Arduino board. Wheat employs example projects to exemplify the hacks and algorithms taught throughout the book. Arduino projects straddling the hardware-software boundary often require collaboration between people of different talents and skills which cannot be taken for granted. For this reason, Arduino Internals contains a whole chapter dedicated to collaboration and open source cooperation to make those tools and skills explicit. One of the crowning achievements of an Arduino hacker is to design a shield or peripheral residing on the Arduino board, which is the focus of the following chapter. A later chapter takes specialization further by examining Arduino protocols and communications, a field immediately relevant to shields and the communication between peripherals and the board. Finally, Arduino Internals integrates different skills and design techniques by presenting several projects that challenge you to put your newly-acquired skills to the test! Please note: the print version of this title is black & white; the eBook is full color.



AVR Microcontroller and Embedded Systems Pearson New International Edition

AVR Microcontroller and Embedded Systems  Pearson New International Edition Author Muhammad Ali Mazidi
ISBN-10 1292042567
Release 2013-11-01
Pages 752
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For courses in Embedded System Design, Microcontroller's Software and Hardware, Microprocessor Interfacing, Microprocessor Assembly Language Programming, Peripheral Interfacing, Senior Project Design, Embedded System programming with C. The AVR Microcontroller and Embedded Systems: Using Assembly and C features a step-by-step approach in covering both Assembly and C language programming of the AVR family of Microcontrollers. It offers a systematic approach in programming and interfacing of the AVR with LCD, keyboard, ADC, DAC, Sensors, Serial Ports, Timers, DC and Stepper Motors, Opto-isolators, and RTC. Both Assembly and C languages are used in all the peripherals programming. In the first 6 chapters, Assembly language is used to cover the AVR architecture and starting with chapter 7, both Assembly and C languages are used to show the peripherals programming and interfacing.



The Avr Microcontroller and Embedded Systems Using Assembly and C

The Avr Microcontroller and Embedded Systems Using Assembly and C Author Sepehr Naimi
ISBN-10 0997925965
Release 2017-11-13
Pages
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The AVR microcontroller from Atmel (now Microchip) is one of the most widely used 8-bit microcontrollers. Arduino Uno is based on AVR microcontroller. It is inexpensive and widely available around the world. This book combines the two. In this book, the authors use a step-by-step and systematic approach to show the programming of the AVR chip. Examples in both Assembly language and C show how to program many of the AVR features, such as timers, serial communication, ADC, SPI, I2C, and PWM. The text is organized into two parts: 1) The first 6 chapters use Assembly language programming to examine the internal architecture of the AVR. 2) Chapters 7-18 uses both Assembly and C to show the AVR peripherals and I/O interfacing to real-world devices such as LCD, motor, and sensor. The first edition of this book published by Pearson used ATmega32. It is still available for purchase from Amazon. This new edition is based on Atmega328 and the Arduino Uno board. The appendices, source codes, tutorials and support materials for both books are available on the following websites: http: //www.NicerLand.com/ and http: //www.MicroDigitalEd.com/AVR/AVR_books.htm



AVR An Introductory Course

AVR  An Introductory Course Author John Morton
ISBN-10 0080499724
Release 2002-09-06
Pages 240
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This book includes 15 programming and constructional projects, and covers the range of AVR chips currently available, including the recent Tiny AVR. No prior experience with microcontrollers is assumed. John Morton is author of the popular PIC: Your Personal Introductory Course, also published by Newnes. *The hands-on way of learning to use the Atmel AVR microcontroller *Project work designed to put the AVR through its paces *The only book designed to get you up-and-running with the AVR from square one



Designing Embedded Hardware

Designing Embedded Hardware Author John Catsoulis
ISBN-10 1449379036
Release 2005-05-16
Pages 398
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Embedded computer systems literally surround us: they're in our cell phones, PDAs, cars, TVs, refrigerators, heating systems, and more. In fact, embedded systems are one of the most rapidly growing segments of the computer industry today.Along with the growing list of devices for which embedded computer systems are appropriate, interest is growing among programmers, hobbyists, and engineers of all types in how to design and build devices of their own. Furthermore, the knowledge offered by this book into the fundamentals of these computer systems can benefit anyone who has to evaluate and apply the systems.The second edition of Designing Embedded Hardware has been updated to include information on the latest generation of processors and microcontrollers, including the new MAXQ processor. If you're new to this and don't know what a MAXQ is, don't worry--the book spells out the basics of embedded design for beginners while providing material useful for advanced systems designers.Designing Embedded Hardware steers a course between those books dedicated to writing code for particular microprocessors, and those that stress the philosophy of embedded system design without providing any practical information. Having designed 40 embedded computer systems of his own, author John Catsoulis brings a wealth of real-world experience to show readers how to design and create entirely new embedded devices and computerized gadgets, as well as how to customize and extend off-the-shelf systems.Loaded with real examples, this book also provides a roadmap to the pitfalls and traps to avoid. Designing Embedded Hardware includes: The theory and practice of embedded systems Understanding schematics and data sheets Powering an embedded system Producing and debugging an embedded system Processors such as the PIC, Atmel AVR, and Motorola 68000-series Digital Signal Processing (DSP) architectures Protocols (SPI and I2C) used to add peripherals RS-232C, RS-422, infrared communication, and USB CAN and Ethernet networking Pulse Width Monitoring and motor control If you want to build your own embedded system, or tweak an existing one, this invaluable book gives you the understanding and practical skills you need.



C Programming for Arduino

C Programming for Arduino Author Julien Bayle
ISBN-10 9781849517591
Release 2013-05-17
Pages 512
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Written as a practical Packt book brimming with engaging examples, C Programming for Arduino will help those new to the amazing open source electronic platform so that they can start developing some great projects from the very start.This book is great for people who want to learn how to design & build their own electronic devices. From interaction design art school students to the do-it-yourself hobbyist, or even simply people who want to learn electronics, this book will help by adding a new way to design autonomous but connected devices.