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Getting Started with Arduino 4e : The Open Source Electronics Prototyping Platform
Arduino is the open source electronics prototyping platform that has taken the Maker Movement by storm.This thorough introduction, updated for the latest Arduino release, helps you start prototyping right away.From obtaining the required components to putting the final touches on your project, all the information you need is here!Getting started with Arduino is a snap.To use the introductory examples in this guide, all you need is an Arduino Uno or Leonardo, along with a USB cable and an LED.The easy-to-use, free Arduino development environment runs on Mac, Windows, and Linux. In Getting Started with Arduino, you'll learn about:Interaction design and physical computing The Arduino board and its software environment Basics of electricity and electronics Prototyping on a solderless breadboard Drawing a schematic diagram Talking to a computer--and the cloud--from Arduino Building a custom plant-watering system
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Electronics Components Basic Starter Kit Convenient Useful for Arduino MEGA2560
40pin Breadboard Cable Resistor Capacitor Raspberry Pi LED Buzzer Capacitor Resistor LED Electric Component for Arduino MEGA2560 Features: 1. Extensive Component Selection: breadboard cable Includes over 200pcs of components, including basic transistors and ICs. 2. Versatile Compatibility: Compatible with a wide range of electronic devices and circuits. 3. Easy Assembly: Components are designed for straightforward installation and integration. 4. Diverse Application Potential: Electronics components basic starter kit is suitable for various projects, from hobbyist electronics to professional circuit design. 5. Convenient Organization: Components come neatly organized for easy identification and access. Specification: Origin: Mainland China Type: Voltage Regulator Condition: New Model Number: Integrated Circuits Colour: Multi-colour Package size: 130*110*25mm/5.12* 4.33* 0.98in Attention: This package does not include the motherboard Packing list: 10*White LED 10*Yellow LED 10*Blue LED 10*Green LED 10*Red LED 1*RGB LED 2*Photoresistor 1*Thermistor 5*Diode rectifier (1N4007) 5*NPN Transistor (PN2222) 1*IC 4N35 1*IC 74HC595 10*Button (small) 1*Active Buzzer 1*Passive Buzzer 1*Precision Potentiometer 10*22pf ceramic capacitor 10*104 ceramic capacitor 5*Electrolytic Capacitor (10UF 50V) 5*Electrolytic Capacitor (100UF 50V) 10*Resistor (10R) 10*Resistor (100R) 10*Resistor (220R) 10*Resistor (330R) 10*Resistor (1K) 10*Resistor (2K) 10*Resistor (5K1) 10*Resistor (10K) 10*Resistor (100K) 10*Resistor (1M) 2*Row Pin (40pin) Note: Due to the different monitor and light effect, the actual color of the item might be slightly different from the color showed on the pictures. Thank you! Please allow 1-2cm measuring deviation due to manual measurement.
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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
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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 £
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What is a performance level in electronics?
A performance level in electronics refers to the measure of a device's capability and efficiency in carrying out its intended functions. It can include factors such as processing speed, power consumption, reliability, and overall effectiveness in meeting the user's needs. Performance levels are often used to compare different electronic devices and determine which one is best suited for a particular application or use case. In the context of consumer electronics, performance levels can also be used to indicate the quality and capabilities of a product, helping consumers make informed purchasing decisions.
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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.
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What are the components and performance of the HP Victus?
The HP Victus is a gaming laptop that features a 16.1-inch display with up to a 144Hz refresh rate, an AMD Ryzen 5000 series processor, and NVIDIA GeForce RTX 30 series graphics. It also includes up to 32GB of DDR4 RAM and up to 1TB of PCIe SSD storage. The laptop is designed to deliver high performance for gaming and multitasking, with its powerful components and fast refresh rate display.
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Which components have the biggest impact on a PC's performance?
The components that have the biggest impact on a PC's performance are the CPU, GPU, RAM, and storage. The CPU (Central Processing Unit) is responsible for carrying out instructions and performing calculations, so a faster and more powerful CPU will result in better overall performance. The GPU (Graphics Processing Unit) is crucial for graphics-intensive tasks such as gaming and video editing. More RAM allows the PC to handle multiple tasks simultaneously and improves overall system responsiveness. Lastly, the type and speed of storage, such as SSDs (Solid State Drives), can significantly impact the speed at which the PC can access and load data.
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High Performance Programming for Soft Computing
This book examines the present and future of soft computer techniques.It explains how to use the latest technological tools, such as multicore processors and graphics processing units, to implement highly efficient intelligent system methods using a general purpose computer.
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Mastering ROS for Robotics Programming -
Discover best practices and troubleshooting solutions when working on ROSAbout This Book• Develop complex robotic applications using ROS to interface robot manipulators and mobile robots• Gain insight into autonomous navigation in mobile robots and motion planning in robot manipulators• Discover best practices and troubleshooting solutionsWho This Book Is ForIf you are a robotics enthusiast or researcher who want to learn more about building robot applications using ROS, this book is for you.In order to learn from this book, you should have a basic knowledge of ROS, GNU/Linux, and C++ programming concepts.The book is also excellent for programmers who want to explore the advanced features of ROS. What You Will Learn• Create a robot model with a seven-DOF robotic arm and a differential wheeled mobile robot• Work with Gazebo and V-REP robotic simulator• Implement autonomous navigation in differential drive robots using SLAM and AMCL packages• Explore the ROS Pluginlib, ROS nodelets, and Gazebo plugins• Interface I/O boards such as Arduino, robot sensors, and high-end actuators• Simulate and motion plan an ABB and universal arm using ROS Industrial• Explore the latest version of the ROS framework• Work with the motion planning of a seven-DOF arm using MoveIt!In DetailIn this day and age, robotics has been gaining a lot of traction in various industries where consistency and perfection matter.Automation is achieved via robotic applications and various platforms that support robotics.The Robot Operating System (ROS) is a modular software platform to develop generic robotic applications.This book focuses on the most stable release of ROS (Kinetic Kame), discusses advanced concepts, and effectively teaches you programming using ROS. We begin with aninformative overview of the ROS framework, which will give you a clear idea of how ROS works.During the course of this book, you'll learn to build models of complex robots, and simulate and interface the robot using the ROS MoveIt! motion planning library and ROS navigation stacks. Learn to leverage several ROS packages to embrace your robot models. After covering robot manipulation and navigation, you'll get to grips with the interfacing I/O boards, sensors, and actuators of ROS.Vision sensors are a key component of robots, and an entire chapter is dedicated to the vision sensor and image elaboration, its interface in ROS and programming.You'll also understand the hardware interface and simulation of complex robots to ROS and ROS Industrial. At the end of this book, you'll discover the best practices to follow when programming using ROS. Style and approachThis is a simplified guide to help you learn and master advanced topics in ROS using hands-on examples.
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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 £ -
45 in 1 Sensors Modules Starter Kit Sensor Board Kit for Arduino UNO R3 MEGA2560
45 in 1 Sensors Modules Starter Kit Sensor Board Kit for Arduino UNO R3 MEGA2560
Price: 9.99 € | Shipping*: 3.84 €
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How is the performance decrease due to shading estimated in solar modules?
The performance decrease due to shading in solar modules is estimated using a technique called "electrical simulation modeling." This involves creating a computer model of the solar module and simulating the effect of shading on the electrical output. By analyzing the shading patterns and their impact on the current-voltage characteristics of the module, the performance decrease can be estimated. Additionally, some solar modules are equipped with bypass diodes that help minimize the impact of shading by providing alternative pathways for the current to bypass the shaded cells, further reducing the performance decrease.
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How can I maximize the performance of my components for Yuzu?
To maximize the performance of your components for Yuzu, you can start by ensuring that your CPU and GPU are up to date and meet the system requirements for the emulator. Additionally, you can optimize your system settings by closing unnecessary background applications and processes to free up resources for Yuzu. It's also important to keep your graphics drivers updated to ensure smooth performance. Lastly, you can experiment with different settings within the Yuzu emulator itself to find the best balance between performance and visual quality for your specific hardware.
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How do you calibrate sensors with Arduino?
To calibrate sensors with Arduino, you can follow these general steps: 1. Connect the sensor to the Arduino board and upload a simple sketch to read the sensor data. 2. Place the sensor in a known environment and record the readings. This will serve as the reference point for calibration. 3. Use this reference data to adjust the sensor readings in the code. This can involve applying a correction factor or using a calibration equation to map the raw sensor data to the actual physical quantity being measured. 4. Test the calibrated sensor in different conditions to ensure accurate and consistent readings. By following these steps, you can effectively calibrate sensors with Arduino to improve the accuracy of your measurements.
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How is the decrease in performance due to shading estimated in solar modules?
The decrease in performance due to shading in solar modules is estimated using a technique called the "I-V curve analysis." This involves measuring the current-voltage (I-V) characteristics of the solar module under different shading conditions to determine the impact on its performance. By analyzing the changes in the I-V curve, experts can quantify the reduction in power output caused by shading and assess the overall impact on the system's efficiency. Additionally, advanced monitoring systems and simulation tools can also be used to predict shading effects and optimize the design and placement of solar panels to minimize performance losses.
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