Search results for "kit de ro"
4tronix M.A.R.S. Rover Robot Kit for Raspberry Pi Zero
Inspired by NASA's “Curiosity” and “Perseverance” Mars Rovers, this innovative M.A.R.S. Rover is an autonomous vehicle designed to drive around on rough terrain here on Earth. It uses the same rocker arm, bogey and differential arm mechanism. M.A.R.S. is an acronym for 'Mobile Autonomous Robotic System'. Features 6 Motors: 80 rpm 6 V, N20 micro gear motors 4 Servos: MG90S metal gear analog micro servos 4 FireLEDs Ultrasonic distance sensor on steerable mast Total number of special PCBs: 30 Number of different PCB designs: 11 Length: 200 mm Width: 185 mm Height with Mast: 170 mm Weight excluding Raspberry Pi Zero and batteries: 460 g There is a Python library module for the Raspberry Pi Zero that makes it easy to control the unit. Required Raspberry Pi Zero 4 rechargeable AA batteries Downloads Assembly of 4tronix M.A.R.S. Rover Kit Programming M.A.R.S. Rover on Raspberry Pi Zero Coding using Microsoft Makecode on GitHub
€ 184,95
Members € 166,46
SparkFun SparkFun JetBot AI Kit v3.0 (without NVIDIA Jetson Nano Developer Kit)
The SparkFun JetBot AI Kit V3.0 is a great launchpad for creating entirely new AI projects for makers, students, and enthusiasts interested in learning AI and building fun applications. It’s straightforward to set up and use and is compatible with many popular accessories. Several interactive tutorials show you how to harness AI's power to teach the SparkFun JetBot to follow objects, avoid collisions, and more. The Jetson Nano Developer Kit (not included in this kit) offers useful tools like the Jetson GPIO Python library and is compatible with standard sensors and peripherals; including some new python compatibility with the SparkFun Qwiic ecosystem. Additionally, the included image is delivered with the advanced functionality of JetBot ROS (Robot Operating System) and AWS RoboMaker Ready with AWS IoT Greengrass already installed. SparkFun’s JetBot AI Kit is the only kit currently on the market ready to move beyond the standard JetBot examples and into the world of connected and intelligent robotics. This kit includes everything you need to get started with JetBot minus a Phillips head screwdriver and an Ubuntu desktop GUI. If you need these, check out the includes tabs for some suggestions from our catalogue. Please be aware that the ability to run multiple neural networks in parallel may only be possible with a full 5V-4A power supply. Features SparkFun Qwiic ecosystem for I²C communication The ecosystem can be expanded using 4x Qwiic connectors on GPIO header Example Code for Basic Motion, Teleoperation, Collision avoidance, & Object Following Compact form factor to optimize existing neural net from NVIDIA 136° FOV camera for machine vision Pre-flashed MicroSD card Chassis assembly offers expandable architecture No soldering required Included 64 GB MicroSD card - pre-flashed SparkFun JetBot image: Nvidia Jetbot base image with the following installed: SparkFun Qwiic python library package Driver for Edimax WiFi adapter Greengrass Jetbot ROS Leopard Imaging 136FOV wide-angle camera & ribbon cable EDIMAX WiFi Adapter SparkFun Qwiic Motor Driver SparkFun Micro OLED Breakout (Qwiic) All hardware & prototyping electronics needed to complete your fully functional robot! Required NVIDIA Jetson Nano Developer Kit Downloads Assembly Guide
€ 219,00
Members € 197,10
Elecrow CrowBot BOLT - Programmable Smart Robot Car Kit (with Joystick)
CrowBot BOLT is an ESP32-controlled, intelligent, simple and easy-to-use open source robot car. It is compatible with the Arduino and MicroPython environments, with graphical programming via Letscode. 16 learning courses with interesting experiments are available. Features 16 lessons in three languages (Letscode, Arduino, Micropython), fast learning and fun experiments Compatible with Arduino, MicroPython development environment, using Letscode graphical programming, easy to use Strong scalability, with a variety of interfaces, can be expanded and used with Crowtail modules A variety of remote control modes, you can use the infrared remote control and joystick to control the car Specifications Processor ESP32-Wrover-B (8 MB) Programming Letscode, Arduino, Micropython Control method Bluetooth Remote Control/Infrared Remote Control Input Button, Light sensor, Infrared Receiving Module, Ultrasonic Sensor, Line Tracking Sensor Output Buzzer, Programmable RGB Light, Motor Wifi & Bluetooth Yes Light sensor Can realize the function of chasing light or avoiding light Ultrasonic Sensor When an obstacle is detected, the driving route of the car can be corrected to avoid the obstacle Line Tracking Sensor Can make the car move along the dark/black lines, intelligently judge and correct the driving path Buzzer Can make the car sound/whistle, bringing a more direct sensory experience Programmable RGB Light Through programming, it can show colorful lights in different scenes Infrared receiver Receive infrared remote control signals to realize remote control Interfaces 1x USB-C, 1x I²C, 1x A/D Motor type GA12-N20 Micro DC Gear Motor Operating temperature -10℃~+55℃ Power supply 4x 1.5 V batteries (not included) Battery life 1.5 hours Dimensions 128 x 92 x 64 mm Weight 900 g Included 1x Chassis 1x Ultrasonic Sensor 1x Battery Holder 2x Wheels 4x M3x8 mm Screws 2x M3x5 mm Copper Column 2x Side Acrylic Plates 1x Front Acrylic Plates 1x Screwdriver 2x 4 Pin Crowtail Cable 1x USB-C Cable 1x Infrared remote control 1x Instructions & Line Track Map 1x Joystick Downloads Wiki CrowBot-BOLT_Assembly-Instruction Joystick-for-CrowBot-BOLT_Assembly-Instruction CrowBot_BOLT_Beginner’s_Guide Designing Documents of CrowBot Designing Documents of Joystick Lesson Code 3D Model Factory Source Code
€ 64,95
Members € 58,46
JOY-iT JOY-iT Robot Car Kit 01 for Arduino
Enter the world of robotics without any complications and at a reasonable price with the Car Kit 01 for Arduino. This is a kit that can be used as a basic framework for a car/robot. The set is very easy to assemble and ready to go in no time. The supplied geared motors (with double-ended shaft) can be operated in a voltage range of 3 to 9 volts. The speed varies between 90 and 300 revolutions per minute. The torque (gf/cm) between 800 and 1200. The Car Kit is compatible with all Arduino boards. Note: You will also need to add other components such as a power source (batteries) and a controller such as an Arduino with a motor controller. The base plate already contains the holes for mounting an Arduino. User Manual
€ 21,95
Members € 19,76
Diamex Diamex LED Tube Clock ESP Kit
The Diamex LED Tube Clock ESP Kit has a WLAN interface, with which the current highly accurate time can be retrieved directly from the Internet via the home router. In addition, a battery-buffered real-time clock is built in, which takes over when no WLAN is available. The WLAN access data are configured via the LED-Basic development environment (from version 15.3.0). The Diamex LED Tube Clock ESP Kit can be operated worldwide, the time zone can be chosen arbitrarily. The winter/summer time changeover is done automatically. Specifications 8-digit, bright 7-segment display Real-time clock including mounting bracket for a CR2012 battery Time setting via PC, WLAN or directly at the clock 4 buttons Beeper (sound output) Micro USB port for power supply, basic data, bios update and terminal output Board size: approx. 130 x 75 mm
€ 54,95
Members € 49,46
Variobot variAnt Robot Ant Kit
Programmable robot kit with 344 parts variAnt runs and acts almost like its natural role model. Its patented walking mechanism was especially developed for the fine-boned anatomy of an insect and is driven by compact micro-geared motors. The autonomous robot ant explores its entire environment with the help of 12 analogue sensors. This allows it to detect obstacles, markings, movements or light sources based on the slightest differences in brightness. The control unit in the rear, which is equipped with a nano-board, offers a wide range of flexible connection options in combination with the breadboard in the head. After the exciting setup, ready-made and expandable code modules ensure an easy and quick introduction to Arduino programming up to the first experiments with artificial intelligence. The kit already comes with a USB rechargeable 9 V Li-Ion battery, which supplies the robot ant with power for at least 5 hours. Robot ant as a programmable kit Compatible with Arduino IDE Patented mechanics and sensors Features of variAnt 24 high-quality acrylic parts 12 variable environmental sensors 2 reed sensors for step counting 2 freely programmable buttons 8 freely usable digital I/Os 15 pluggable status LEDs Specifications Content: 344 parts Construction time: about 4-8 hours (no soldering required) Dimensions: 25 x 22.5 x 9 cm (L x W x H) Weight: 210/232 g (without/with battery) Necessary tools PC or tablet, micro-USB and USB-C cable, flat pliers, diagonal pliers, carpet knife, permanent marker Downloads Manual Arduino library
€ 199,95
Members € 179,96
JOY-iT JOY-iT Grab-it Robot Arm Kit
The Grab-it Robot arm is produced in a special solid model. The frame of the arm exists of very solid, black anodized aluminium. Included in delivery are 6 PWN controlled servo motors, that are constructed for a pressure of 20 kg/cm. So there is a high range of usage and enough power reserves for your projects. The pressure range of the precision claw is adjusted to the arm and able to work under the same pressure. The arm will be delivered with a rotary plate (360°) where it has to be mounted. The rotary plate will fixed on a 28.5 x 16 cm base plate. There are already bores for all current single-board computers and development boards (Raspberry Pi, Banana Pi, Arduino,…). For an easy and accurate controlling, we recommend MotorPi (for Raspberry Pi) or Motorino (for Arduino). Highlights & Details Material: robust aluminium, black anodized incl. 6 pieces 20 kg/cm PWM/servo motors Voltage range 5 to 7.4 V DC Metal gear incl. base plate with bores for all current single-board computers and development boards incl. high-quality precision claw Motors 21.5 kg/ cm torque at 7.4V5V-7.4 V DC voltage360° mechanical angle, 180° operating rangemetal gearcontrolable via PWMCurrent intake 5 mA to 2 A (per motor) Frame Aluminum profile Dimensions Base plate 28.5 x 16 cmHeight: depending on the position of the arm, up to 42 cm Range About 30 cm from the center of the rotary plate Base plate 4.5 mm acrylic with mounting possiblity for Raspberry Pi A+/B+/2/3, CubieBoard, Arduino Mega, Banana Pi M2, pcDuino and many more.Holes with spacers allowing the attachment to a ground plate Components Robot arm in single plarts incl. rotary-plate, claw, base-plate and mounting-material, 6 motors Recommended accessories MotoPi (motor control for Raspberry Pi)Motorino (motor control for Arduino)
€ 184,95
Members € 166,46
UFactory UFactory uArm Swift Pro
The uArm Swift Pro is a high quality robotic arm that can be used in a wide range of applications. The uArm Swift Pro was developed and optimized for use in education, which means that many packages are already available for open source platforms such as ROS. The uArm Swift Pro has a position repeatability of 0.2 mm and is also equipped with a stepper motor and a 12-bit encoder. These are just a few reasons that make the uArm Swift Pro an excellent choice for educational use. Another great feature is the 3D printing kit that converts the uArm Swift Pro into a 3D printer in less than 1 minute. The uArm supports the following development platforms/systems: UFACTORY SDK Arduino Python ROS GRABCAD OpenMV Smartphone App The smartphone app for iOS is already available in the App Store and enables easy control and monitoring of the robotic arm. The app for Android is in development and will be available soon. An example of the Machine Vision The following GIF shows the uArm in combination with the OpenMV Machine Vision Cam M7 and the facial recognition applications that can be implemented in MicroPython. Specifications Degrees of Freedom: 4 Repeatability: Up to 0.2 mm Payload: 500 g Working Range: 50-320 mm Positioning Speed: 100 m/s Position Feedback: 12-bit Encoder Dimensions: 150 x 140 x 281mm Weight: 2.2 kg Included UFactory uArm Swift Pro Body Bluetooth & Vacuum Gripper Downloads Datasheet
€ 939,00
Members identical
JOY-iT Joy-Car Robot for BBC micro:bit
The Joy-Car is an autonomous robot based on micro:bit and offers a modular robotics learning kit. With the help of the detailed manual, all assemblies and their functions as a whole machine are explained, as well as details of programming and codes.Sensors such as line tracking, ultra sonic, infrared and wheel speed sensors provide functions such as autonomous driving and even the control via Bluetooth via a second, separate micro:bit.The additional equipment simulates indicators, lights, reversing light and horn, thus complement the experience of an autonomous robot car. With addressable LEDs, individual lighting scenarios can also be realized.SpecificationsPower Supply 4x AA batteries Alternatively: 4.5-9 VDC Functions & Features Learning the individual components as a whole machine Suitable from 9 years on, ideal for school purposes Detailed instructions for programming including codes Programming languages: Micro:Python and MakeCode Autonomous driving by line finder, ultrasonic and infrared BT-control via separate 2nd micro:bit possible Simulation of indicators, lights, reversing light and horn Compatible with micro:bit v1 and v2 Included sensors 2x Speed sensor 3x Line tracking sensor 1x Ultrasonic sensor 2x Obstacle sensor Included electronic assembly 1x Joy-Car mainboard 2x Gear motor 2x Servo motor 4x LED board 1x Battery case Dimensions189 x 171 x 77 mmIncluded items Joy-Car Acryl Kit Sensors Electronics assembly Mounting material Connection cables RequiredBBC micro:bit v1 or v2Downloads Manual MakeCode Tutorials Websitehttps://joycar.joy-it.net/en/
€ 64,95
Members € 58,46
Evil Mad Science EggBot Pro - Open-source Art Robot
The EggBot Pro is a complete re-imagining of the EggBot, designed for rigidity, ease of use, and faster setup. Its major components are solid aluminum, CNC machined in the USA, and powder coated or anodized. It's sturdy as can be. The frame has an open front, for greatly improved accessibility and visibility while you are plotting. The most common mechanical adjustments are faster with bicycle-style quick releases and repositioned thumbscrews for easier access. And, it comes fully assembled and ready to use. Assuming that you've installed the software first, you can be up and printing within minutes of opening the box. The EggBot Pro fits spherical and egg-shaped objects from roughly the size of a gumball to that of a light bulb — about 1 to 3.5 inches in diameter (2.5 - 9 cm). Perfect for ping pong balls, golf balls, chicken eggs, and similarly sized objects. The movements of the pen and egg motors are controlled by high-torque precision stepping motors, and the pen lift mechanism is a quiet and reliable servo motor. The included EiBotBoard v2.0 (EBB) driver board uses 16× micro stepping to give a resolution of 3200 steps/revolution in both axes. A universal-input plug-in power supply is included with the EggBot kit, as is a USB cable and one black Sharpie marker. To operate the EggBot Pro, you will need a reasonably modern computer with an available USB port (Mac, Windows or Linux), plus internet access to download the necessary software. The EggBot is usually controlled through a set of open-source extensions to Inkscape, the excellent, popular and free vector graphics program. The basic operation is much like that of a printer driver: you import or make a drawing in Inkscape, and use the extensions to plot your drawing onto whatever object you've mounted in the EggBot. It's all handled through an easy to use graphical user interface and works cleanly on Mac, Windows, and Linux. The standard pen holder included with the EggBot kit is designed to fit various art pens including Sharpie Ultra Fine Point and Sharpie Fine Point pens. However, it can fit almost any pen of similar size. You can even fit a lot of things that aren't pens. One example: We offer a diamond point engraving tool for EggBot (shown here), capable of etching and engraving hard materials like glass, stone, and ceramic.
€ 349,00
Members € 314,10
Evil Mad Science EggBot Deluxe - Open-source Art Robot
The EggBot is a friendly art robot that can draw on spherical or egg-shaped objects from the size of a ping pong ball to that of a small Grapefruit – roughly 1.25 to 4.25 inches in diameter (3 - 10 cm). You can use EggBot on all kinds of spherical objects. Use it to create the most impressive Easter eggs, personalize Christmas ornaments or even golf balls or light bulbs. The EggBot is not just a cool gadget; it’s also a great introduction to CNC (computer numerical control) and do-it-yourself robotics. All of the electronics and software are designed to be hackable and repurposable, so you could easily computer control an Etch-a-Sketch or create something totally new. The EggBot software allows you to control the ‘bot from within Inkscape – a superb freeware illustration program – on Mac, Windows, or Linux computers. You can draw an image directly, trace a photograph, or import designs from other programs. You can also control the EggBot directly from many other programs that have the ability to send serial commands over a USB port. The EggBot kit in the Elektor online store is the most popular of all; the Deluxe Version! The EggBot kits are recommended for ages 10 and up, although for kids under 13 adult supervision is recommended. Universal power supply included! (with US-EU adapter).
€ 259,00
Members € 233,10
Makerfabs Makerfabs 6 DOF Robot Arm with Raspberry Pi Pico
Raspberry Pi Pico is a great solution for servo control. With the hardware PIO, the Pico can control the servos by hardware, without usage of times/ interrupts, and limit the usage of the MCU. Driving the six servos on this robotic arm takes very little MCU capacity, so the MCU can deal with other tasks easily. This 6 DOF robotic arm is a handy tool for teaching and learning robotics and Pico usage. There are five MG996s (four are needed in the assembly and one for backup) and three 25-kg servos (two needed in the assembly and one for backup). Note that for the servos the angle ranges from 0° to 180°. All the servos need to be preset to 90° (with logic HIGH 1.5 ms duty) before the assembly to avoid servo damage during movement. This product includes all the necessary items needed to create a robotic arm based on Pico and Micropython. Included 1x Raspberry Pi Pico 1x Raspberry Pi Pico Servo Driver 1x Set '6 DOF Robot Arm' 1x 5 V/5 A Power Supply 2x Backup Servo Downloads GitHub Wiki Assembly Guide Assembly Video
€ 139,95
Members € 125,96