Introduction to C -- Advanced C topics -- What are microcontrollers? -- Small 8-bit systems -- Programming large 8-bit systems -- Large microcontrollers -- Advanced topics in programming embedded systems (M68HC12) -- MCORE, a RISC machine.
*Just months after the introduction of the new generation of 32-bit PIC microcontrollers, a Microchip insider and acclaimed author takes you by hand at the exploration of the PIC32*Includes handy checklists to help readers perform the most common programming and debugging tasksThe new 32-bit microcontrollers bring the promise of more speed and more performance while offering an unprecedented level of compatibility with existing 8 and 16-bit PIC microcontrollers. In sixteen engaging chapters, using a parallel track to his previous title dedicated to 16-bit programming, the author puts all these claims to test while offering a gradual introduction to the development and debugging of embedded control applications in C. Author Lucio Di Jasio, a PIC and embedded control expert, offers unique insight into the new 32-bit architecture while developing a number of projects of growing complexity. Experienced PIC users and newcomers to the field alike will benefit from the text's many thorough examples which demonstrate how to nimbly side-step common obstacles, solve real-world design problems efficiently and optimize code using the new PIC32 features and peripheral set. You will learn about:*basic timing and I/O operation*debugging methods with the MPLAB SIM *simulator and ICD tools*multitasking using the PIC32 interrupts*all the new hardware peripherals*how to control LCD displays*experimenting with the Explorer16 board and *the PIC32 Starter Kit*accessing mass-storage media*generating audio and video signals *and more!TABLE OF CONTENTSDay 1 And the adventure beginsDay 2 Walking in circlesDay 3 Message in a BottleDay 4 NUMB3RSDay 5 InterruptsDay 6 Memory Part 2 ExperimentingDay 7 RunningDay 8 Communication Day 9 LinksDay 10 Glass = BlissDay 11 It's an analog worldPart 3 ExpansionDay 12 Capturing User InputsDay 13 UTubeDay 14 Mass StorageDay 15 File I/ODay 16 Musica Maestro! - 32-bit microcontrollers are becoming the technology of choice for high performance embedded control applications including portable media players, cell phones, and GPS receivers. - Learn to use the C programming language for advanced embedded control designs and/or learn to migrate your applications from previous 8 and 16-bit architectures.
Technology is constantly changing. New microcontrollers become available every year and old ones become redundant. The one thing that has stayed the same is the C programming language used to program these microcontrollers. If you would like to learn this standard language to program microcontrollers, then this book is for you! ARM microcontrollers are available from a large number of manufacturers. They are 32-bit microcontrollers and usually contain a decent amount of memory and a large number of on-chip peripherals. Although this book concentrates on ARM microcontrollers from Atmel, the C programming language applies equally to other manufacturers ARMs as well as other microcontrollers. The book features: Use only free or open source software; Learn how to download, set up and use free C programming tools; Start learning the C language to write simple PC programs before tackling embedded programming -- no need to buy an embedded system right away!; Start learning to program from the very first chapter with simple programs and slowly build from there; No programming experience is necessary!; Learn by doing -- type and run the example programs and exercises; Sample programs and exercises can be downloaded from the Internet; A fun way to learn the C programming language; Ideal for electronic hobbyists, students and engineers wanting to learn the C programming language in an embedded environment on ARM microcontrollers.
This guide by Microchip insider Lucio Di Jasio teaches readers everything they need to know about the architecture of these new chips: how to program them, how to test them, and how to debug them.
Go beyond the jigsaw approach of just using blocks of code you don’t understand and become a programmer who really understands how your code works. Starting with the fundamentals on C programming, this book walks you through where the C language fits with microcontrollers. Next, you'll see how to use the industrial IDE, create and simulate a project, and download your program to an actual PIC microcontroller. You'll then advance into the main process of a C program and explore in depth the most common commands applied to a PIC microcontroller and see how to use the range of control registers inside the PIC. With C Programming for the PIC Microcontroller as your guide, you’ll become a better programmer who can truly say they have written and understand the code they use. What You’ll LearnUse the freely available MPLAX software Build a project and write a program using inputs from switches Create a variable delay with the oscillator sourceMeasure real-world signals using pressure, temperature, and speed inputsIncorporate LCD screens into your projectsApply what you’ve learned into a simple embedded programWho This Book Is For Hobbyists who want to move into the challenging world of embedded programming or students on an engineering course.
Microcontrollers are present in many new and existing electronic products, and the PIC microcontroller is a leading processor in the embedded applications market. Students and development engineers need to be able to design new products using microcontrollers, and this book explains from first principles how to use the universal development language C to create new PIC based systems, as well as the associated hardware interfacing principles. The book includes many source code listings, circuit schematics and hardware block diagrams. It describes the internal hardware of 8-bit PIC microcontroller, outlines the development systems available to write and test C programs, and shows how to use CCS C to create PIC firmware. In addition, simple interfacing principles are explained, a demonstration program for the PIC mechatronics development board provided and some typical applications outlined. - Focuses on the C programming language which is by far the most popular for microcontrollers (MCUs) - Features Proteus VSMg the most complete microcontroller simulator on the market, along with CCS PCM C compiler, both are highly compatible with Microchip tools - Extensive downloadable content including fully worked examples
This book provides a hands-on introductory course on concepts of C programming using a PIC® microcontroller and CCS C compiler. Through a project-based approach, this book provides an easy to understand method of learning the correct and efficient practices to program a PIC® microcontroller in C language. Principles of C programming are introduced gradually, building on skill sets and knowledge. Early chapters emphasize the understanding of C language through experience and exercises, while the latter half of the book covers the PIC® microcontroller, its peripherals, and how to use those peripherals from within C in great detail. This book demonstrates the programming methodology and tools used by most professionals in embedded design, and will enable you to apply your knowledge and programming skills for any real-life application. Providing a step-by-step guide to the subject matter, this book will encourage you to alter, expand, and customize code for use in your own projects. - A complete introduction to C programming using PIC microcontrollers, with a focus on real-world applications, programming methodology and tools - Each chapter includes C code project examples, tables, graphs, charts, references, photographs, schematic diagrams, flow charts and compiler compatibility notes to channel your knowledge into real-world examples - Online materials include presentation slides, extended tests, exercises, quizzes and answers, real-world case studies, videos and weblinks
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
Microcontroller Programming: An Introduction is a comprehensive one-stop resource that covers the concepts, principles, solution development, and associated techniques involved in microcontroller-based systems. Focusing on the elements and features of the popular and powerful Motorola 68HC11 microcontroller IC as a representative example, this book