Embedded Microcontroller Interfacing For M Cor Systems

Author: G. Jack Lipovski
Editor: Elsevier
ISBN: 9780080505565
Size: 20,62 MB
Format: PDF, Mobi
Read: 969

The "M·CORE" family of microprocessors is the latest 32-bit integrated circuit from Motorola designed to be a multi-purpose "micro-controller." The processor architecture has been designed for high performance and cost-sensitive embedded control applications with particular emphasis on reduced power consumption. This is the first book on the programming of the new language instruction set using the M·CORE chip. Embedded Microcontroller Interfacing for M·CORE Systems is the third of a trio of books by G. Jack Lipovski from the University of Texas. The first two books are on assembly language programming for the new Motorola 6812 16-bit microcontroller, and were written to be textbooks and professional references. This book was written at the request of the Motorola design team for the professional users of its new and very successful M·CORE chip microcontrollers. Written with the complete cooperation and input of the M·CORE design engineers at their headquarters in Austin, Texas, this book covers all aspects of the programming software and hardware of the M·CORE chip. * First introductory level book on the Motorola MoCORE * Teaches engineers how a computer executes instructions * Shows how a high-level programming language converts to assembler language * Teaches the reader how a microcontroller is interfaced to the outside world * Hundreds of examples are used throughout the text * Over 200 homework problems give the reader in-depth practice * A CD-ROM with HIWARE's C++ compiler is included with the book * A complete summary chapter on other available microcontrollers

Microcontrollers Fundamentals For Engineers And Scientists

Author: Steven Frank Barrett
Editor: Morgan & Claypool Publishers
ISBN: 1598290584
Size: 13,57 MB
Format: PDF, ePub
Read: 895

Microcontrollers Fundamentals for Engineers and Scientists provides practicing scientists and engineers a tutorial on the fundamental concepts and the use of microcontrollers. Today, microcontrollers, or single integrated circuit (chip) computers, play critical roles in almost all instrumentation and control systems. There are a number of books that explore the fascinating world of microcontroller theory and applications. However, most of these are geared toward undergraduate and graduate students taking an electrical and/or computer engineering course. Furthermore, these texts have been written with a particular model of microcontroller as the target discussion. These textbooks also require a requisite knowledge of digital design fundamentals.In this textbook, authors Steven Barrett and Daniel Pack present the fundamental concepts common to all microcontrollers. The book presents the over-arching theory of microcontroller operation and provides a detailed discussion on constituent subsystems available in most microcontrollers. The text can be readily applied to a wide variety of microcontroller technologies, allowing practicing scientists and engineers to become acquainted with basic concepts prior to beginning a design involving a specific microcontroller. Both authors have used a wide variety of microcontrollers from various manufacturers and have found that the fundamental principles of a given microcontroller are easily transferred to other controllers. Although this is a relatively small textbook, it is packed with useful information and allows students and professionals to quickly come up to speed on microcontroller concepts.

Reconfigurable Computing Systems Engineering

Author: Lev Kirischian
Editor: CRC Press
ISBN: 1315354802
Size: 11,58 MB
Format: PDF, ePub, Mobi
Read: 724

Reconfigurable Computing Systems Engineering: Virtualization of Computing Architecture describes the organization of reconfigurable computing system (RCS) architecture and discusses the pros and cons of different RCS architecture implementations. Providing a solid understanding of RCS technology and where it’s most effective, this book: Details the architecture organization of RCS platforms for application-specific workloads Covers the process of the architectural synthesis of hardware components for system-on-chip (SoC) for the RCS Explores the virtualization of RCS architecture from the system and on-chip levels Presents methodologies for RCS architecture run-time integration according to mode of operation and rapid adaptation to changes of multi-parametric constraints Includes illustrative examples, case studies, homework problems, and references to important literature A solutions manual is available with qualifying course adoption. Reconfigurable Computing Systems Engineering: Virtualization of Computing Architecture offers a complete road map to the synthesis of RCS architecture, exposing hardware design engineers, system architects, and students specializing in designing FPGA-based embedded systems to novel concepts in RCS architecture organization and virtualization.

Electronic Engineering

Author: Dongxing Wang
Editor: CRC Press
ISBN: 0429890966
Size: 20,51 MB
Format: PDF, Kindle
Read: 408

The 4th International Conference of Electronic Engineering and Information Science 2017 (ICEEIS2017) was held January 7-8, 2017 in Haikou, P.R. China. This conference was sponsored by the Harbin University of Science and Technology, China. The conference continued the tradition of gathering world-class researchers, engineers and educators engaged in the fields of electronic engineering and information science to meet and present their latest activities. The proceedings contains contributions in the fields of Electronic Engineering, Information Science and Information Technologies, Computational Mathematics and Data Mining, Mechatronics, Control and Automation and Material Science and Technologies of Processing.

Software Engineering For Embedded Systems

Author: Robert Oshana
Editor: Newnes
ISBN: 0124159419
Size: 20,80 MB
Format: PDF
Read: 852

This Expert Guide gives you the techniques and technologies in software engineering to optimally design and implement your embedded system. Written by experts with a solutions focus, this encyclopedic reference gives you an indispensable aid to tackling the day-to-day problems when using software engineering methods to develop your embedded systems. With this book you will learn: The principles of good architecture for an embedded system Design practices to help make your embedded project successful Details on principles that are often a part of embedded systems, including digital signal processing, safety-critical principles, and development processes Techniques for setting up a performance engineering strategy for your embedded system software How to develop user interfaces for embedded systems Strategies for testing and deploying your embedded system, and ensuring quality development processes Practical techniques for optimizing embedded software for performance, memory, and power Advanced guidelines for developing multicore software for embedded systems How to develop embedded software for networking, storage, and automotive segments How to manage the embedded development process Includes contributions from: Frank Schirrmeister, Shelly Gretlein, Bruce Douglass, Erich Styger, Gary Stringham, Jean Labrosse, Jim Trudeau, Mike Brogioli, Mark Pitchford, Catalin Dan Udma, Markus Levy, Pete Wilson, Whit Waldo, Inga Harris, Xinxin Yang, Srinivasa Addepalli, Andrew McKay, Mark Kraeling and Robert Oshana. Road map of key problems/issues and references to their solution in the text Review of core methods in the context of how to apply them Examples demonstrating timeless implementation details Short and to- the- point case studies show how key ideas can be implemented, the rationale for choices made, and design guidelines and trade-offs

Embedded Systems

Author: Jonathan W. Valvano
Editor: CreateSpace
ISBN: 9781463590154
Size: 11,59 MB
Format: PDF, Mobi
Read: 566

This fourth edition includes the new TM4C1294-based LaunchPad. Most of the code in the book is specific for the TM4C123-based LaunchPad. However ... This fourth edition switches the syntax from C to the industry-standard C99, adds a line-tracking robot, designs an integral controller for a DC motor, and includes an expanded section on wireless communication and Internet of Things"--Page vii.

The Essential Pic18 Microcontroller

Author: Sid Katzen
Editor: Springer Science & Business Media
ISBN: 9781849962292
Size: 11,61 MB
Format: PDF, Kindle
Read: 206

Microprocessors are the key component of the infrastructure of our 21st-century electronic- and digital information-based society. More than four billion are sold each year for use in 'intelligent' electronic devices; ranging from smart egg-timer through to aircraft management systems. Most of these processor devices appear in the form of highly-integrated microcontrollers, which comprize a core microprocessor together with memory and analog/digital peripheral ports. By using simple cores, these single-chip computers are the cost- and size-effective means of adding the brains to previous dumb widgets; such as the credit card. Using the same winning format as the successful Springer guide, The Quintessential PIC® Microcontroller, this down-to-earth new textbook/guide has been completely rewritten based on the more powerful PIC18 enhanced-range Microchip MCU family. Throughout the book, commercial hardware and software products are used to illustrate the material, as readers are provided real-world in-depth guidance on the design, construction and programming of small, embedded microcontroller-based systems. Suitable for stand-alone usage, the text does not require a prerequisite deep understanding of digital systems. Topics and features: uses an in-depth bottom-up approach to the topic of microcontroller design using the Microchip enhanced-range PIC18® microcontroller family as the exemplar; includes fully worked examples and self-assessment questions, with additional support material available on an associated website; provides a standalone module on foundation topics in digital, logic and computer architecture for microcontroller engineering; discusses the hardware aspects of interfacing and interrupt handling, with an emphasis on the integration of hardware and software; covers parallel and serial input/output, timing, analog, and EEPROM data-handling techniques; presents a practical build-and-program case study, as well as illustrating simple testing strategies. This useful text/reference book will be of great value to industrial engineers, hobbyists and people in academia. Students of Electronic Engineering and Computer Science, at both undergraduate and postgraduate level, will also find this an ideal textbook, with many helpful learning tools. Dr. Sid Katzen is Associate to the School of Engineering, University of Ulster at Jordanstown, Northern Ireland.

Introduction To Embedded Systems

Author: David Russell
Editor: Morgan & Claypool Publishers
ISBN: 1608454991
Size: 12,65 MB
Format: PDF
Read: 118

Many electrical and computer engineering projects involve some kind of embedded system in which a microcontroller sits at the center as the primary source of control. The recently-developed Arduino development platform includes an inexpensive hardware development board hosting an eight-bit ATMEL ATmega-family processor and a Java-based software-development environment. These features allow an embedded systems beginner the ability to focus their attention on learning how to write embedded software instead of wasting time overcoming the engineering CAD tools learning curve. The goal of this text is to introduce fundamental methods for creating embedded software in general, with a focus on ANSI C. The Arduino development platform provides a great means for accomplishing this task. As such, this work presents embedded software development using 100% ANSI C for the Arduino's ATmega328P processor. We deviate from using the Arduino-specific Wiring libraries in an attempt to provide the most general embedded methods. In this way, the reader will acquire essential knowledge necessary for work on future projects involving other processors. Particular attention is paid to the notorious issue of using C pointers in order to gain direct access to microprocessor registers, which ultimately allow control over all peripheral interfacing. Table of Contents: Introduction / ANSI C / Introduction to Arduino / Embedded Debugging / ATmega328P Architecture / General-Purpose Input/Output / Timer Ports / Analog Input Ports / Interrupt Processing / Serial Communications / Assembly Language / Non-volatile Memory

Embedded Microprocessor Systems

Author: Christian Müller-Schloer
Editor: IOS Press
ISBN: 9789051993004
Size: 12,41 MB
Format: PDF, Mobi
Read: 478

Embedded System Design

Editor: PHI Learning Pvt. Ltd.
ISBN: 8120347307
Size: 14,11 MB
Format: PDF, ePub, Docs
Read: 522

Embedded system, as a subject, is an amalgamation of different domains, such as digital design, architecture, operating systems, interfaces, and algorithmic optimization techniques. This book acquaints the students with the alternatives and intricacies of embedded system design. It is designed as a textbook for the undergraduate students of Electronics and Communication Engineering, Electronics and Instrumentation Engineering, Computer Science and Engineering, Information Communication Technology (ICT), as well as for the postgraduate students of Computer Applications (MCA). While in the hardware platform the book explains the role of microcontrollers and introduces one of the most widely used embedded processor, ARM, it also deliberates on other alternatives, such as digital signal processors, field programmable devices, and integrated circuits. It provides a very good overview of the interfacing standards covering RS232C, RS422, RS485, USB, IrDA, Bluetooth, and CAN. In the software domain, the book introduces the features of real-time operating systems for use in embedded applications. Various scheduling algorithms have been discussed with their merits and demerits. The existing real-time operating systems have been surveyed. Guided by cost and performance requirements, embedded applications are often implemented partly in hardware and partly in software. The book covers the different optimization techniques proposed in the literature to take a judicious decision about this partitioning of application tasks. Power-aware design of embedded systems has also been dealt with. In its second edition, the text has been extensively revised and updated. Almost all the chapters have been modified and elaborated including detailed discussion on hardware platforms—ARM, DSP, and FPGA. The chapter on “interfacing standards” has been updated to incorporate the latest information. The new edition will be thereby immensely useful to the students, practitioners and advanced readers. Key Features • Presents a considerably wide coverage of the field of embedded systems • Discusses the ARM microcontroller in detail • Provides numerous exercises to assess the learning process • Offers a good discussion on hardware–software codesign