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  • Programming with MicroPython : Embedded Programming with Microcontrollers and Python
    Programming with MicroPython : Embedded Programming with Microcontrollers and Python

    It’s an exciting time to get involved with MicroPython, the re-implementation of Python 3 for microcontrollers and embedded systems.This practical guide delivers the knowledge you need to roll up your sleeves and create exceptional embedded projects with this lean and efficient programming language.If you’re familiar with Python as a programmer, educator, or maker, you’re ready to learn—and have fun along the way.Author Nicholas Tollervey takes you on a journey from first steps to advanced projects.You’ll explore the types of devices that run MicroPython, and examine how the language uses and interacts with hardware to process input, connect to the outside world, communicate wirelessly, make sounds and music, and drive robotics projects.Work with MicroPython on four typical devices: PyBoard, the micro:bit, Adafruit’s Circuit Playground Express, and ESP8266/ESP32 boards Explore a framework that helps you generate, evaluate, and evolve embedded projects that solve real problems Dive into practical MicroPython examples: visual feedback, input and sensing, GPIO, networking, sound and music, and robotics Learn how idiomatic MicroPython helps you express a lot with the minimum of resources Take the next step by getting involved with the Python community

    Price: 39.99 £ | Shipping*: 0.00 £
  • Embedded Machine Learning with Microcontrollers : Applications on Arduino Boards
    Embedded Machine Learning with Microcontrollers : Applications on Arduino Boards

    This textbook introduces basic and advanced embedded machine learning methods by exploring practical applications on Arduino boards.By covering traditional and neural network-based machine learning methods implemented on microcontrollers, the text is designed for use in courses on microcontrollers and embedded machine learning systems.Following the learning-by-doing approach, the book will enable students to grasp embedded machine learning concepts through real-world examples, providing them with the design and implementation skills needed for a competitive job market.By utilizing a programming environment that enables students to reach and modify microcontroller properties easily, the material allows for fast implementation of the developed system.Students are guided in implementing machine learning methods to be deployed and tested on microcontrollers throughout the book, with the theory behind the implemented methods also emphasized.Sample codes and real-world projects are available for readers and instructors.The book will also be an ideal reference for practicing engineers and electronics hobbyists.

    Price: 54.99 £ | Shipping*: 0.00 £
  • Arduino for Musicians : A Complete Guide to Arduino and Teensy Microcontrollers
    Arduino for Musicians : A Complete Guide to Arduino and Teensy Microcontrollers

    Arduino, Teensy, and related microcontrollers provide a virtually limitless range of creative opportunities for musicians and hobbyists who are interested in exploring "do it yourself" technologies.Given the relative ease of use and low cost of the Arduino platform, electronic musicians can now envision new ways of synthesizing sounds and interacting with music-making software.In Arduino for Musicians, author and veteran music instructor Brent Edstrom opens the door to exciting and expressive instruments and control systems that respond to light, touch, pressure, breath, and other forms of real-time control.He provides a comprehensive guide to the underlying technologies enabling electronic musicians and technologists to tap into the vast creative potential of the platform.Arduino for Musicians presents relevant concepts, including basic circuitry and programming, in a building-block format that is accessible to musicians and other individuals who enjoy using music technology.In addition to comprehensive coverage of music-related concepts including direct digital synthesis, audio input and output, and the Music Instrument Digital Interface (MIDI), the book concludes with four projects that build on the concepts presented throughout the book.The projects, which will be of interest to many electronic musicians, include a MIDI breath controller with pitch and modulation joystick, "retro" step sequencer, custom digital/analog synthesizer, and an expressive MIDI hand drum.Throughout Arduino for Musicians, Edstrom emphasizes the convenience and accessibility of the equipment as well as the extensive variety of instruments it can inspire.While circuit design and programming are in themselves formidable topics, Edstrom introduces their core concepts in a practical and straightforward manner that any reader with a background or interest in electronic music can utilize.Musicians and hobbyists at many levels, from those interested in creating new electronic music devices, to those with experience in synthesis or processing software, will welcome Arduino for Musicians.

    Price: 44.99 £ | Shipping*: 0.00 £
  • 8051 Microcontrollers : Fundamental Concepts, Hardware, Software and Applications in Electronics
    8051 Microcontrollers : Fundamental Concepts, Hardware, Software and Applications in Electronics

    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.

    Price: 74.99 £ | Shipping*: 0.00 £
  • What are challenging Arduino projects with microcontrollers?

    Challenging Arduino projects with microcontrollers can include building a robotic arm with multiple degrees of freedom, creating a home automation system with sensors and actuators, or developing a real-time data logging and visualization system. These projects require a deep understanding of programming, electronics, and mechanical design, as well as the ability to integrate multiple components and systems. Additionally, troubleshooting and debugging skills are crucial when working on complex Arduino projects with microcontrollers.

  • What cable colors are used in microcontrollers?

    Microcontrollers typically use a variety of cable colors for different purposes. Common colors include red for power, black for ground, and a variety of other colors such as green, blue, yellow, and white for different signal lines. These colors help to easily identify and connect different components and signals within the microcontroller system, making it easier to troubleshoot and maintain. Additionally, some microcontrollers may also use specific color-coding standards such as those defined by the IEC 60446 standard for electrical wiring and connections.

  • Which soldering station is suitable for microcontrollers?

    A soldering station suitable for microcontrollers should have a temperature control feature, allowing for precise and consistent heat application. It should also have a fine tip for detailed soldering work on small components. Additionally, a good soldering station for microcontrollers should have a stable and reliable power supply to ensure consistent performance. Look for a station with adjustable temperature settings and a small, precise tip for working with microcontrollers.

  • Which microcontrollers can be programmed in C?

    Many microcontrollers can be programmed in C, including popular ones like Arduino (using the Arduino IDE), PIC (using MPLAB X IDE), STM32 (using STM32CubeIDE), and ESP8266/ESP32 (using the Arduino IDE or ESP-IDF). C is a widely used programming language for microcontrollers due to its efficiency and flexibility in handling low-level operations. It allows developers to directly access and manipulate hardware components, making it a preferred choice for embedded systems programming.

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  • Electronics for Beginners : A Practical Introduction to Schematics, Circuits, and Microcontrollers
    Electronics for Beginners : A Practical Introduction to Schematics, Circuits, and Microcontrollers

    Jump start your journey with electronics! If you’ve thought about getting into electronics, but don’t know where to start, this book gives you the information you need.Starting with the basics of electricity and circuits, you'll be introduced to digital electronics and microcontrollers, capacitors and inductors, and amplification circuits – all while gaining the basic tools and information you need to start working with low-power electronics. Electronics for Beginners walks the fine line of focusing on projects-based learning, while still keeping electronics front and center.You'll learn the mathematics of circuits in an uncomplicated fashion and see how schematics map on to actual breadboards.Written for the absolute beginner, this book steers clear of being too math heavy, giving readers the key information they need to get started on their electronics journey. What You’ll LearnReview the basic “patterns” of resistor usage—pull up, pull down, voltage divider, and current limiterUnderstand the requirements for circuits and how they are put togetherRead and differentiate what various parts of the schematics doDecide what considerations to take when choosing componentsUse all battery-powered circuits, so projects are safeWho This Book Is ForMakers, students, and beginners of any age interested in getting started with electronics.

    Price: 54.99 £ | Shipping*: 0.00 £
  • Python for Microcontrollers: Getting Started with MicroPython
    Python for Microcontrollers: Getting Started with MicroPython

    Build and program your own electronics projects with MicroPython in no time!This practical guide offers a hands-on introduction to Python-based microcontroller programming with MicroPython and the open-source Pyboard hardware platform.The book shows, step-by-step, how to set up and interface with the board, install the necessary software, and develop custom MicroPython programs. Written by an experienced hobbyist, Python for Microcontrollers: Getting Started with MicroPython and Pyboard features start-to-finish, DIY projects that clearly demonstrate each technique.You will learn how to use the built-in sensor, store data to an SD card, control the LCD and matrix keyboard, interface with the Web—even build a cool robotic car!From there, you will discover how to assemble, program, and troubleshoot all kinds of entertaining and practical projects of your own. • Serves both as a hobbyists’ guide and as an introduction for engineers and techs • Features clear explanations, well-illustrated examples, and hands-on projects• Written in clear, easy-to-follow language by an experienced maker

    Price: 19.99 £ | Shipping*: 3.99 £
  • Interfacing PIC Microcontrollers : Embedded Design by Interactive Simulation
    Interfacing PIC Microcontrollers : Embedded Design by Interactive Simulation

    Interfacing PIC Microcontrollers, 2nd Edition is a great introductory text for those starting out in this field and as a source reference for more experienced engineers.Martin Bates has drawn upon 20 years of experience of teaching microprocessor systems to produce a book containing an excellent balance of theory and practice with numerous working examples throughout. It provides comprehensive coverage of basic microcontroller system interfacing using the latest interactive software, Proteus VSM, which allows real-time simulation of microcontroller based designs and supports the development of new applications from initial concept to final testing and deployment.

    Price: 39.50 £ | Shipping*: 0.00 £
  • Designing Embedded Systems with PIC Microcontrollers : Principles and Applications
    Designing Embedded Systems with PIC Microcontrollers : Principles and Applications

    PIC microcontrollers are used worldwide in commercial and industrial devices.The 8-bit PIC which this book focuses on is a versatile work horse that completes many designs.An engineer working with applications that include a microcontroller will no doubt come across the PIC sooner rather than later.It is a must to have a working knowledge of this 8-bit technology.This book takes the novice from introduction of embedded systems through to advanced development techniques for utilizing and optimizing the PIC family of microcontrollers in your device.To truly understand the PIC, assembly and C programming language must be understood.The author explains both with sample code and examples, and makes the transition from the former to the latter an easy one.This is a solid building block for future PIC endeavors.New to the 2nd Edition:*Include end of chapter questions/activities moving from introductory to advanced*More worked examples *Includes PowerPoint slides for instructors *Includes all code snips on a companion web site for ease of use *A survey of 16/32-bit PICs*A project using ZigBee

    Price: 37.99 £ | Shipping*: 0.00 £
  • How can the voltage for microcontrollers be reduced?

    The voltage for microcontrollers can be reduced by using a voltage regulator or a buck converter. A voltage regulator is a simple and cost-effective way to reduce the voltage to the desired level, while a buck converter is more efficient and can handle larger voltage reductions. Both of these methods can help ensure that the microcontroller receives the appropriate voltage for its operation, while also preventing damage from overvoltage.

  • Which microcontrollers are suitable for operation with 230V?

    Microcontrollers suitable for operation with 230V typically include those with built-in high-voltage input/output capabilities or those that can interface with external high-voltage components. Examples of microcontrollers suitable for 230V operation include the Atmel AVR series, Microchip PIC series, and Texas Instruments MSP430 series. These microcontrollers often have the necessary features such as high-voltage tolerant I/O pins, built-in analog-to-digital converters for high-voltage sensing, and robust communication interfaces for controlling high-voltage devices. It is important to carefully select a microcontroller that meets the specific requirements of the 230V application, including safety and regulatory compliance.

  • How can multiple microcontrollers be used in a circuit?

    Multiple microcontrollers can be used in a circuit to divide the workload and handle different tasks simultaneously. Each microcontroller can be programmed to perform specific functions, such as sensor data processing, motor control, or communication with other devices. By distributing the tasks among multiple microcontrollers, the overall system can operate more efficiently and handle complex operations. Additionally, using multiple microcontrollers can also provide redundancy and fault tolerance in case one of the microcontrollers fails.

  • Which profession is related to microcontrollers and circuit boards?

    Electrical engineering is a profession that is closely related to microcontrollers and circuit boards. Electrical engineers design, develop, test, and supervise the manufacturing of electronic components such as microcontrollers and circuit boards. They work with various electronic devices and systems to ensure they function properly and efficiently. Additionally, electrical engineers are responsible for troubleshooting and repairing any issues that may arise with microcontrollers and circuit boards.

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