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Digital control systems. --- Intel 8051 (Microcontroller). --- Microcontrollers.
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This book is a thoroughly practical way to explore the 8051 and discover C programming through project work. Through graded projects, Dogan Ibrahim introduces the reader to the fundamentals of microelectronics, the 8051 family, programming in C, and the use of a C compiler. The specific device used for examples is the AT89C2051 - a small, economical chip with re-writable memory, readily available from the major component suppliers.A working knowledge of microcontrollers, and how to program them, is essential for all students of electronics. In this rapidly expanding field many student
C (Computer program language) --- Intel 8051 (Microcontroller) --- Microcontrollers. --- Programmable controllers. --- Programming.
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The 8051 architecture developed by Intel has proved to be the most popular and enduring type of microcontroller, available from many manufacturers and widely used for industrial applications and embedded systems as well as being a versatile and economical option for design prototyping, educational use and other project work.In this book the authors introduce the fundamentals and capabilities of the 8051, then put them to use through practical exercises and project work. The result is a highly practical learning experience that will help a wide range of engineers and students to get thr
Information Technology --- General and Others --- Digital control systems. --- Embedded computer systems. --- Intel 8051 (Microcontroller) --- 8051 (Microcontroller) --- INTEL 8051 (Computer) --- Microcontrollers --- Embedded systems (Computer systems) --- Computer systems --- Architecture Analysis and Design Language --- Automatic control --- Electronic digital computers --- microcontrollers --- 8051
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This book is a thoroughly practical way to explore the 8051 and discover C programming through project work. Through graded projects, Dogan Ibrahim introduces the reader to the fundamentals of microelectronics, the 8051 family, programming in C, and the use of a C compiler. The specific device used for examples is the AT89C2051 - a small, economical chip with re-writable memory, readily available from the major component suppliers.A working knowledge of microcontrollers, and how to program them, is essential for all students of electronics. In this rapidly expanding field many student
C (Computer program language) --- Intel 8051 (Microcontroller) --- Microcontrollers. --- Programmable controllers. --- Controllers, Programmable --- Electronic controllers --- Automatic control --- Computers on a chip --- Embedded microcontrollers --- MCUs (Microcontrollers) --- Microprocessors --- Programming.
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Ted Van Sickle spent over fifteen years at Motorola as a microcontroller specialist. He now consults and teaches classes on software design and programming for microcontroller systems. He holds a MSEE from the University of Michigan.Introduces microcontrollers and describes their programming environment, offering tips on coding for microcontrollersDescribes techniques to get maximum performance from your codeDiscusses the differences between 8-bit and larger microcontrollers, giving application examples and providing details on using different compilers
Programming --- Computer architecture. Operating systems --- microcontroller --- C taal --- 8 bit microcontroller --- embedded system --- risc --- Contains audio-visual material --- C (Computer program language) --- Microcontrollers --- Programmable controllers --- Controllers, Programmable --- Electronic controllers --- Automatic control --- Computers on a chip --- Embedded microcontrollers --- MCUs (Microcontrollers) --- Microprocessors --- Microcomputers --- Programming.
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8051 --- microcontroller --- embedded system --- C taal --- Programmable controllers --- Embedded computer systems --- C (Computer program language) --- Assembler language (Computer program language) --- Programmable controllers. --- Embedded computer systems. --- C (Computer program language). --- Assembler language (Computer program language).
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This textbook describes in detail the fundamental information about the 8051 microcontroller and it carefully teaches readers how to use the microcontroller to make both electronics hardware and software. In addition to discussion of the 8051 internals, this text includes numerous, solved examples, end-of-chapter exercises, laboratory and practical projects. Explains internals of 8051 hardware and relates to general principles of computer architecture; Demonstrates how to implement various electronics applications, with hardware and software design for 8051 microcontrollers; Includes numerous, solved examples, end-of-chapter exercises, laboratory and practical projects.
Engineering. --- Microprocessors. --- Electronics. --- Microelectronics. --- Electronic circuits. --- Circuits and Systems. --- Electronics and Microelectronics, Instrumentation. --- Processor Architectures. --- Systems engineering. --- Computer science. --- Informatics --- Science --- Engineering systems --- System engineering --- Engineering --- Industrial engineering --- System analysis --- Electrical engineering --- Physical sciences --- Design and construction --- Intel 8051 (Microcontroller) --- 8051 (Microcontroller) --- INTEL 8051 (Computer) --- Microcontrollers --- Minicomputers --- Microminiature electronic equipment --- Microminiaturization (Electronics) --- Electronics --- Microtechnology --- Semiconductors --- Miniature electronic equipment --- Electron-tube circuits --- Electric circuits --- Electron tubes
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Leverage your Arduino skills in the Raspberry Pi world and see how to cross the two platforms into sophisticated programs. The Arduino and Raspberry Pi communities overlap more than you might think. Arduinos can be expanded to have network capabilities with a variety of “shields,” all of which increase the cost and complexity of the system. By contrast, Raspberry Pis all run Linux, which is a very network-competent platform. The newest Pi, the Raspberry Pi Zero W, is WiFi and Bluetooth capable. It makes far more sense to cross to the Raspberry PI platform; this book shows you how to do so. You'll learn some survival level Linux system administration, so you know how to set the machine up and how to establish at least minimal security for your gadget. You''ll set up and learn the Geany IDE on your Pi, which is fairly similar to the Arduino IDE. You'll see that several projects use and explain the WiringPi system. This is deliberately similar to the Arduino's 'Wiring' functionality, which is how sketches interact with GPIO pins. You'll learn the differences between the GPIO pins of the two devices, and how the Pi has some limitations on those pins that the Arduino does not. As a final project, in an effort to escape some of those limitations, you'll attach an AtMEGA 328P to the Raspberry Pi and configure it as a real, 8MHz Arduino with the Arduino IDE running on the Pi, and learn how to have the two platforms communicate, giving you the best of both worlds.
Computer science. --- Computer Science. --- Hardware and Maker. --- Arduino (Programmable controller) --- Arduino (Microcontroller) --- Programmable controllers --- Computer input-output equipment. --- Computer hardware --- Computer I/O equipment --- Computers --- Electronic analog computers --- Electronic digital computers --- Hardware, Computer --- I/O equipment (Computers) --- Input equipment (Computers) --- Input-output equipment (Computers) --- Output equipment (Computers) --- Computer systems --- Input-output equipment
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Get started with Arduino and computer coding. This book is intended for those new to the Arduino and computer coding. and looking to gain the skills to write microcontroller programs that can act on given inputs and operate electromechanical output devices. Coding the Arduino contains four sections: background information, game development, electronic games and projects, and expanded programs. The final chapters expand on the functionality of some of the programs presented in previous chapters, and challenges you with capstone projects. The projects will be described where the program code that is presented can be modified, or in which two or more of the sample programs may be used to synthesize a new program as the solution to the problem that is presented. Additionally, review questions are presented at the end of each chapter to test your comprehension of the material.
Arduino (Programmable controller) --- Computer science. --- Computer Science. --- Hardware and Maker. --- Arduino (Microcontroller) --- Programmable controllers --- Computer input-output equipment. --- Computer hardware --- Computer I/O equipment --- Computers --- Electronic analog computers --- Electronic digital computers --- Hardware, Computer --- I/O equipment (Computers) --- Input equipment (Computers) --- Input-output equipment (Computers) --- Output equipment (Computers) --- Computer systems --- Input-output equipment
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Mechatronics is a core subject for engineers, combining elements of mechanical and electronic engineering into the development of computer-controlled mechanical devices such as DVD players or anti-lock braking systems. This book is the most comprehensive text available for both mechanical and electrical engineering students and will enable them to engage fully with all stages of mechatronic system design. It offers broader and more integrated coverage than other books in the field with practical examples, case studies and exercises throughout and an Instructor's Manual. A further key feature
Electronics --- Electrical engineering --- Applied physical engineering --- Artificial intelligence. Robotics. Simulation. Graphics --- CNC (computerized numerical control) --- PIC (peripheral interface controller) --- mechatronica --- halfgeleiders --- robots --- sensoren --- Mechatronics --- halfgeleiderelement --- sensor --- actuator --- microcomputer --- microcontroller --- data acquisitie (daq) --- robotsysteem --- Mechatronics. --- Mechanical engineering. --- Engineering, Mechanical --- Engineering --- Machinery --- Steam engineering --- Mechanical engineering --- Microelectronics --- Microelectromechanical systems
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