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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.

Engineering. --- Electronic circuits. --- Control engineering. --- Robotics. --- Automation. --- Computers. --- Technology and Engineering. --- Electronic Circuits and Systems. --- Control, Robotics, Automation. --- Computer Hardware.

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It is often a challenging and overwhelming transition to go from being a student to being a teacher. Many new faculty members of engineering and science have to make this dramatic transition in a very short time. In the same closing months of your Ph.D. program you are trying to complete your research, finish and defend your dissertation, find a job, move to a new location, and start a new job as a faculty member. If you are lucky, you've had the opportunity to serve as a teaching assistant and possibly have taught a university-level course. If you have served as a research assistant, your teaching opportunities may have been limited. Somehow, in this quick transition from student to teacher, one is supposed to become a good teacher and be ready for the first day of school. This book is intended as a basic primer on college-level teaching and learning for a new faculty member of engineering and applied science. New faculty members in other disciplines will find much of the information applicable to their area of expertise as well. First and foremost, this book is about learning and teaching. However, it also provides helpful information on related topics such as mentorship, student challenges, graduate students, tenure, and promotion and accreditation. This book is also intended as a reference for seasoned professionals. It is a good reference for those mentoring the next generation of college educators. Table of Contents: List of Figures / What makes a Great Teacher? / A little learning theory / Preparation for the first day of classes / Assessment / Beyond the first day.

Engineering design. --- Materials. --- Professional education. --- Vocational education. --- Engineering Design. --- Materials Engineering. --- Professional and Vocational Education.

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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.

Engineering. --- Electronic circuits. --- Control engineering. --- Robotics. --- Automation. --- Computers. --- Technology and Engineering. --- Electronic Circuits and Systems. --- Control, Robotics, Automation. --- Computer Hardware.

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