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Provides an introduction to microprocessor systems, their operation and design. The text covers topics needed by engineers and computer scientists who are interested in applying microprocessors in practical situations, such as computer hardware, software, and the design and testing of systems.
The less-experienced engineer will be able to apply Ball's advice to everyday projects and challenges immediately with amazing results. In this new edition, the author has expanded the section on debug to include avoiding common hardware, software and interrupt problems. Other new features include an expanded section on system integration and debug to address the capabilities of more recent emulators and debuggers, a section about combination microcontroller/PLD devices, and expanded information on industry standard embedded platforms. - Covers all 'species' of embedded system chips rather than specific hardware - Learn how to cope with 'real world' problems - Design embedded systems products that are reliable and work in real applications
System Design; Digital to Analog Converters; Sensors; Time-Based Measurements; Output Control Methods; Solenoids, Relays, and Other Analog Outputs; Motors; EMI; High Precision Applications; Standard Interfaces.
Debugging Embedded Microprocessor Systems provides techniques for engineers, technicians, and students who need to correct design faults in embedded systems. Using real-world scenarios, designers can learn practical, time-saving ways to avoid and repair potentially costly problems. Prevention is stressed. In this book, the author addresses hardware and software issues, including up-front design techniques to prevent bugs and contain design creep. Practical advice includes descriptions of common tools which can be used to help identify and repair bugs, as well as test routines. RTOS and embedded PC environments are also covered. Each chapter of Debugging Embedded Microprocessor Systems opens with an example design problem which illustrates real-world issues such as design changes, time pressures, equipment or component availability, etc. Case studies of past debugging projects are presented in the final chapter. - Addresses real-world issues like design changes, time pressures, equipment or component availability - Practical, time-saving methods for preventing and correcting design problems - Covers debugging tools and programmer test routines
The Engineering of Microprocessor Systems: Guidelines on System Development provides economical and technical guidance for use when incorporating microprocessors in products or production processes and assesses the alternatives that are available. This volume is part of Project 0251 undertaken by The Electrical Research Association, which aims to give managers and development engineers advice and comment on the development process and the hardware and software needed to support the engineering of microprocessor systems. The results of Phase 1 of the five-phase project are contained in this first volume. It presents an overview of the technology of microprocessors themselves, of the development process, and of the range of development aids which will be covered in greater depth in later volumes. Also included are specific recommendations, facts, or guidelines on the choices to be made or procedures to be adopted. This volume is aimed primarily at the manager or other users responsible for microprocessor system developments, but who may lack direct experience in this field. It is intended to provide a decision framework and background material for management considering such developments for the first time, so that the special problems and key aspects of a microprocessor based development can be identified from the start.
Here's an entire learning solution in one book, complete with detailed coverage, questions, problems, and lab experiments! Microprocessor Architecture, Programming, and Systems Featuring the 8085 details the 8085 processor, from both a hardware and software standpoint. Readers will learn pseudo-code and flowcharting as tools in programming a microprocessor, with current, focused coverage that is perfectly written for the two-year college student. Comprehensive exposure to microprocessor architecture includes an entire chapter devoted to both the hardware and software of the 8051 Microcontroller not found in other books. Coverage also includes a uniquely thorough comparison of the 8085 microprocessor with other Motorola and Intel microprocessors.
This book presents the use of a microprocessor-based digital system in our daily life. Its bottom-up approach ensures that all the basic building blocks are covered before the development of a real-life system. The ultimate goal of the book is to equip students with all the fundamental building blocks as well as their integration, allowing them to implement the applications they have dreamed up with minimum effort.
This book is intended for a first course on microprocessor-based systems design for engineering and computer science students. It starts with an introduction of the fundamental concepts, followed by a practical path that guides readers to developing a basic microprocessor example, using a step-by-step problem-solving approach. Then, a second microprocessor is presented, and readers are guided to the implementation and programming of microcomputer systems based on it. The numerous worked examples and solved exercises allow a better understanding and a more effective learning. All the examples and exercises were developed on Deeds (Digital Electronics Education and Design Suite), which is freely available online on a website developed and maintained by the authors. The discussed examples can be simulated by using Deeds and the solutions to all exercises and examples can be found on that website. Further, in the last part of this book, different microprocessor-based systems, which have been specifically thought for educational purposes, are extensively developed, simulated and implemented on FPGA-based platforms. This textbook draws on the authors’ extensive experience in teaching and developing learning materials for bachelor’s and master’s engineering courses. It can be used for self-study as well, and even independently from the simulator. Thanks to the learning-by-doing approach and the plentiful examples, no prior knowledge in computer programming is required.