Build up to six projects straight out of the box with this great value SG Education Project Kit for the BBC micro:bit. The perfect way to get started with programming and hardware interaction. No soldering required, all parts are included to build 6 projects. Small prototype breadboard and 2 x AAA Batteries are included.
Included in the kit are: BBC Micro:Bit Mini Breadboard Shielded Croc Leads USB to mini USB cable Red-Green-Amber LED's Battery cage AAA batteries included
The projects that can be built are: Dice Theremin Miniature Steady Hand Game Fruit Keyboard Traffic Light
Perfect for sharing the micro:bit with friends, the micro:bit club is a 10 pack containing all the pieces needed to enjoy micro:bit in STEM groups, coding clubs, school classes, scouts, guides and cubs or any other social gathering (contains 10 BBC micro:bits V2, 10x USB cables, 10 x battery holders ; 20x AAA batteries).
The micro:bit is a pocket-sized computer that you can code, customise and control to bring your digital ideas, games and apps to life. Measuring 4cm by 5cm, and designed to be fun and easy to use, users can create anything from games and animations to scrolling stories at school, at home and on the go - all you need is imagination and creativity.
The micro:bit is completely programmable. That means each of its LEDs can be individually programmed as can its buttons, inputs and outputs, accelerometer, magnetometer and Bluetooth Smart Technology. The micro:bit has a website full of coding languages, lesson plans, tutorials, and fun ideas to help you get creative
With the micro:bit Go Bundle you have a complete set to get started coding right away. This bundle includes a micro:bit board, micro USB cable, battery holder and 2x AAA batteries.
The BBC micro:bit is a pocket-sized computer that introduces you to how software and hardware work together. It has an LED light display, buttons, sensors and many input/output features that, when programmed, let it interact with you and your world. The new micro:bit V2.2 with sound adds a built-in microphone and speaker, as well as an extra touch input button and a power button.
Micro:bit V2 is a tiny, programmable computer board designed to teach kids and beginners about coding, electronics, and robotics. The board features a range of sensors, buttons, and LED lights that can be programmed using various programming languages and visual programming tools.
Now includes both a speaker and microphone as well as many of the same great features students have used for years. It's easier than ever to use sound and touch to get creative in the classroom.
Using the micro:bit V2, students will be able to sense and react to sound with the built-in microphone and play sound with the built-in speaker while coding in MakeCode, Python, or Scratch!
The ElecFreaks Cutebot Football Game Kit for micro:bit blends STEM education with the excitement of football. This innovative kit features micro:bit and Cutebot smart racing cars, allowing students to engage in interactive football matches while enhancing their understanding of sports and teamwork. The unique football prop, with its flat bottom and universal wheels, ensures smooth gameplay, even in borderless environments. The kit promotes a competitive and educational learning model, simulating real football game scenarios to inspire children's STEM education and interest in technology.
The ELECFREAKS micro:bit Nezha Pro Sport Kit (without micro:bit) brings coding and electronics into the world of sport. Designed for primary and secondary school students, this hands-on STEAM kit features the high-performance Nezha Pro controller, Planet X sensors, four line-tracking sensors, ultrasonic and collision sensors, and more.
Children of all skill levels can dive into over 20 engaging projects, using nearly 600 building blocks to develop their hands-on skills, logical thinking, and creativity. Thanks to its controller-free mode, students can start building and experimenting even without prior programming experience.
Inspired by the growing emphasis on sports education across Europe, this sports-themed kit makes STEM learning fun and accessible, encouraging healthy lifestyles and sparking interest in both technology and sport.
The ELECFREAKS micro:bit Smart Life Kit (without micro:bit) offers a hands-on introduction to smart living and environmental monitoring. This comprehensive kit includes a water pump, relay, ultrasonic sensor, light sensor, water level sensor, MQ2 smoke sensor, servo, temperature and humidity sensor, fan module, and collision sensor.
Designed to ignite creativity and critical thinking, the Smart Life Kit helps children explore real-world applications such as intelligent sensing, automated control, and sustainable living.
Aligned with the United Nations Sustainable Development Goals, the kit encourages students to understand and engage with global challenges through practical projects. Ideal for STEM education, this kit bridges technology and everyday life, inspiring a new generation of innovators.
The ElecFreaks micro:bit XGO Rider Kit is a dynamic, programmable bipedal robot designed to make robotics education fun and engaging. Powered by high-torque all-metal servos and an integrated FOC wheel hub motor, the XGO Rider offers 360° flexible movement, stable posture control, and the ability to perform complex actions.
Its intelligent driver board features a Type-C fast charging port, easy-to-use dip switches, and an integrated IMU sensor for maintaining balance across different terrains.
Compatible with MakeCode graphical programming and supporting Python for advanced projects, the XGO Rider is perfect for students exploring coding, robotics, and engineering. With Bluetooth connectivity and an intuitive mobile app, users can remotely control the robot and unleash endless creative possibilities.
Ideal for classrooms, coding clubs, or home learning, the XGO Rider opens up an exciting world of programmable robotics.
The Kitronik 5V LED Desk Lamp Kit provides a bright and efficient lighting solution in a compact, easy-to-mount design. Equipped with nine white super flux LEDs, it delivers a total output of approximately 16,000 mCd. Built-in current limit resistors ensure safe operation from a 5V power supply or 3 x AA batteries, offering up to 5 hours of illumination with fresh batteries.
The Kitronik ZIP Halo HD for BBC micro:bit features 60 individually addressable full-color ZIP LEDs, along with a MEMS microphone for sound detection, a piezo buzzer for audio output, and an onboard real-time clock (RTC) controlled via I2C. With plug-and-play functionality, simply connect your micro:bit to the edge connector and you’re ready to go. It also includes a 3xAA battery holder, power switch, and two M3 mounting holes for easy installation. Custom MakeCode blocks and MicroPython code examples are provided for seamless integration.
The official micro:bit wearable lets you securely connect your micro:bit to a battery pack using its flexible holder. Featuring an adjustable strap, it can be worn on the wrist, ankle, or attached to other objects for interactive projects on the go.
The micro:bit Smart Health Kit has a well-selection of the Sensor:bit, Analog UV Sensor, PIR Sensor, MQ3 Alcoholic Sensor Brick, Servo and etc., you could use it to build such themes as the UV light detections, the sitting posture reminder, the alcoholic detector, smart trash can and more, from which we can learn how to program and how to keep healthy living habits in a scientific way. Build better science habits with this ELECFREAKS micro:bit Smart Health Kit.
The Kitronik :MOVE mini buggy kit Mark 2 for the BBC micro:bit is a fun introduction to robotics. Once built it can be coded for a variety of fun activities.
The Kitronik :MOVE mini MK 2 buggy kit for the BBC micro:bit is the latest version of our ever popular :MOVE mini that provides a fun introduction to robotics. The :MOVE mini is a 2 wheeled robot that is suitable for autonomous operation, remote control projects via a Bluetooth application or being controlled using a second BBC micro:bit as a controller via the microbits radio functionality.
The micro:bit Smart Agriculture Kit has a well-selection of IoT:bit, DS18B20 temperature sensor, soil moisture sensor, water level sensor, PIR sensor, servos and etc.,
The Kit can be used it to build such themes as the smart insects repelling machine, the ecological greenhouse, the fish pond water level monitoring device and more, from which we can learn the modern agriculture and program and explore more possibilities to apply the information technology in agriculture.
WHAT'S INCLUDED?
1 x IoT:bit Internet WIFI extension board for micro:bit
The Smart Climate Kit is a cutting-edge product built on the micro:bit V2 and IOT expansion board. It features a variety of sensors, including wind speed, temperature and humidity, UV, and dust sensors, along with an OLED display. These components allow it to monitor and record various environmental data in real-time, with the ability to upload the data to the cloud.
The Smart Climate Kit aims to merge meteorological science with IoT technology, sparking children's curiosity about natural phenomena while enhancing their scientific thinking and data analysis skills. Through hands-on, real-time monitoring, children can delve into the mysteries of meteorology and grasp the effects of weather changes on daily life. This experience not only supports their learning and interest development but also fosters innovative thinking and scientific literacy, providing a strong foundation for future pursuits in science and technology.
Smart Home Kit is a product about smart home project base on micro:bit which is developed by Elecfreaks. With selected executed components commonly used at home such as a temperature sensor, sound sensor, crash sensor, servo, motor, you can build scenes like windowsill, wardrobe and fish tank, create yourself smart sweet home and programming to intelligently driving them using micro:bit. Smart home is what makes life more practical and playing with it is what makes life more interesting.
Features
1. Extend most IO ports by GVS terminal.
2. Independently lead out IIC interface. Enable to plug in IIC components like OLED, BME280, etc..
Develop your coding skills with the Kitronik ARCADE for BBC micro:bit and MakeCode Arcade, a fully featured programmable gamepad for use with the MakeCode Arcade block editor. The Kitronik ARCADE for BBC micro:bit and MakeCode Arcade is a handheld gaming platform designed specifically for use with the BBC micro:bit and the MakeCode Arcade editor, either write your own games and run them on Arcade or download existing games. The MakeCode Arcade editor is a great way to learn to code games. It features simple snap-together blocks that allow the user to build simple games within minutes. The editor has been designed to allow everyone, from beginners to experienced game enthusiasts, to create games to run in the browser or on handheld consoles. It consists of drag-and-drop blocks that snap together to form programs. You can also write your code in Javascript and Python!
To help you get off to a flying start, we have created a Datasheet, which also doubles as a quick start guide. It comprises; a product brief, usage information, labelled and dimensioned drawings, and an introduction to coding with the MakeCode Arcade editor. The board features 4 directional d-pad buttons, 2 interactive action buttons for coding, a menu button and a full colour 1.77” screen. At the bottom of the BBC micro:bit Arcade are 5 croc-clippable pads for connecting additional switches and devices. These consist of the 3 BBC micro:bit pins (P0, P1 and P2) also a voltage pin and a ground (the same connections as the large pads on the BBC micro:bit. This allows for custom additions to the gamer. Sound is provided via the in-built sounder on the BBC micro:bit.
The Kitronik Arcade is powered by 3xAA batteries, with the battery holders located on the rear of the PCB. The battery holders also act as an ergonomic grip that makes it comfortable to use. The board also provides power to the connected micro:bit via the edge connector slot, removing the need to power the micro:bit separately. The Arcade has a power switch, but it is also possible to turn the Arcade off by simply removing or inserting the BBC micro:bit into the edge connector. There is a green power LED that lights up when the board has power, is switched on, and has a micro:bit inserted. The emphasis for MakeCode Arcade is Learning/Education and there are a wealth of resources available on the MakeCode Arcade website to facilitate this. There are; guided tutorials that walk you through creating simple games, more complex games that you can open and learn from, games written by community members that you can learn from, game concepts tutorials, tutorials that explore graphics and Maths, lesson plans, CS courses, printable coding cards for the classroom, video tutorials, and much more!
Note:
The Kitronik ARCADE for micro:bit is NOT supplied with a BBC micro:bit
Features:
The Kitronik ARCADE for micro:bit is a feature-packed handheld gamepad for use with BBC micro:bit V2 and the Microsoft Arcade editor.
Write your own games to play or freely download games from the MakeCode Arcade website.
Use the wealth of educational material available to create a game from the ground up or tweak existing code and learn the open-source way.
It features a full-colour LCD 1.77” screen.
It also features; 6 gamer input buttons, a menu button, on/off switch.
The ARCADE breaks out the 0, 1, 2, 3V, GND pins from the micro:bit edge connector to croc-clippable pads below the screen.
The ARCADE is powered by 3xAA batteries (Not supplied).
Contents:
1 x Kitronik ARCADE for BBC micro:bit and MakeCode Arcade gamepad.
Laser-cut protective case parts and fixings (supplied already fully assembled and fitted to ARCADE).
Develop your coding skills with the Kitronik :MOVE Motor for micro:bit, a fun introduction to buggies and robotics. The Kitronik :MOVE Motor for the BBC micro:bit provides a fun introduction to buggy robotics. More than just a programmable buggy, learning to use all of the included features will give the budding roboteer a solid grounding in robotics as a whole.
Learn about movement, how to utilise light and sound, obstacle detection and avoidance, and how to code :MOVE Motor to follow a line. When used in conjunction with the micro:bit's radio features, the possibilities are endless.
Attached to the chassis are two bi-directional DC motors with variable speed control. The wheels have rubber tyres and are a simple push-fit onto the motor shafts. Slot a BBC micro:bit into the edge connector and you are ready to code. There is no other assembly required and no tools required.
There are built-in battery holders for 4x AA batteries. This provides a regulated voltage supply to power the BBC micro:bit which is fed into the edge connector. There is also a power switch to conserve batteries when the buggy is not in use. The micro:bit slots into the onboard edge connector. Code the micro:bit, plug it into the buggy, switch the power on, and then play.
Features:
The Kitronik :MOVE Motor for the BBC micro:bit provides a fun introduction to buggy robotics and coding.
It is backed up by a range of fun tutorials to introduce you to all of the great features.
All of the tutorials and resources are free.
There is no soldering required and assembly is quick and super simple.
The buggy features two bi-direction DC motors.
There are ultrasonic distance and line-following sensors onboard.
It also features a Piezo sounder and pen mount.
There are 4 full-colour programable ZIP LEDs.
Two-pin outputs that are ideal for servo connections (can be used for other inputs and outputs).
The battery holder is built onto the chassis.
The buggy is also fitted with a power switch to conserve the batteries.
There is also an onboard edge connector for the micro:bit, code, plug and play.
Kitronik has produced custom MakeCode blocks to simplify coding with the MakeCode editor
With the Kitronik Compact Robotics Board, the BBC micro:bit can be used to drive 4 motors (or 2 stepper motors) and 8 servos. Coupled with 17 other I/O expansion points, this means the BBC micro:bit can very easily become the core of a whole variety of robotics projects. The board is small on footprint but big on features and connectivity. Please note, when used with a stepper motor, half-stepping is supported - but not micro-stepping.
The Robotics Board features 2 Dual H Bridge Motor Driver ICs (capable of driving 2 standard motors or 1 stepper motor each) and 8 servo outputs (capable of driving standard and continuous rotation servos), all controlled from the BBC micro:bit using the I2C protocol via a 16 channel driver IC. Kitronik's custom MakeCode blocks make using I2C easy, even for novice users.
The Link header breaks out all the usable pins from the BBC micro:bit, and is designed to allow 2.54mm pitch pin header to be easily soldered into place. The 17 available I/O pins allow other input devices, for example, sensors, or output devices, such as ZIP LEDs, to be added to the board. The I2C communication lines are also broken out (Pins 19 & 20), which means other I2C compatible devices can also be added to the board and controlled by the BBC micro:bit.
Power is provided via either a terminal block or servo style connector. The supply is then controlled by an on/off power switch to the board. There is also a green LED to indicate when the board is turned on. The board then produces a regulated 3.3V supply which is fed into the 3V and GND connections to power the connected BBC micro:bit. This removes the need to power the BBC micro:bit separately. The 3V and GND pins are also broken out on the Link header, which means external devices can also be powered.
To use the compact robotics board, the BBC micro:bit should be inserted firmly into the edge connector, with the LEDs and buttons visible from the front.
Kitronik has produced a set of custom blocks for the MakeCode editor to simplify using the Compact Robotics Board for BBC micro:bit. To add them to the editor, select the cog icon in the top right of the editor. Then, select Extensions from the drop-down menu and in the search bar type and enter Kitronik. Pick the Kitronik robotics Board from the list and the new blocks will be added to the menu in the editor.
Features:
A compact yet feature-packed board designed to sit at the heart of your robotics project.
It can drive 4 motors (or 2 stepper motors) and 8 servos.
The board also has 17 other I/O expansion points.
The link header is designed to allow 2.54mm pitch pin header to be used.
The I2C communication lines are also broken out allowing other I2C compatible devices to be controlled.
This board also features an on/off switch and power status LED.
Power the board via either a terminal block or servo style connector.
The 3V and GND pins are also broken out on the Link header, allowing external devices to be powered.
Code with the Microsoft MakeCode editor with custom blocks by Kitronik or with Python.
When used with a stepper motor, half-stepping is supported - but not micro-stepping.
These are 20cm long jumpers with male connectors on one end and female on the other. Use these to jumper from any male or female header on any board. Multiple jumpers can be installed next to one another on a 0.1" header.
These are 20cm long jumpers with male connectors on both ends. Use these to jumper from any female header on any board, to any other female header. Multiple jumpers can be installed next to one another on a 0.1" header.
With this Bumper add-on for:MOVE mini for the BBC microbit MK2, everyone's favorite little programmable robot buggy just got much better. If you were looking for an add-on that allows for competitive games, then this is the add-on for you.
This version of the bumper add on has been designed to fit both the new :MOVE mini MK2 and the original version. The assembly instructions for both can be found in the Resources section below. This self assembly Bumper add-on kit is made from the same materials as :MOVE mini MK2 and has been designed in keeping with the :MOVE mini aesthetic. Once the add-on has been attached to :MOVE mini MK2, the buggy can now easily be used for competitive games involving a ball or a puck, football and hockey spring to mind.
Features:
This attachment can be fitted quickly and easily.
MOVE mini MK2 will be able to move balls and pucks.
Allows for competitive team games such as football and hockey.
This product is backwards compatible with the first version of :MOVE mini.
The Octopus CO2 Gas Sensor, part of the OCTOPUS series, features a consistent design with the same outlook, PCB fixing holes, and connections as its counterparts. As CO2 concentration increases, the output voltage decreases, allowing users to easily obtain CO2 readings through our brochures and coding samples.
The CO2 probe is crafted from industrial-grade materials, rendering it highly responsive to CO2 while resisting interference from alcohol and CO. It excels in performance with rapid response times, even in varying temperature and humidity conditions. Additionally, the onboard heating circuit efficiently converts 5V to a stable 6V voltage, enhancing the adaptability of the CO2 Gas Sensor.
Please note that this sensor requires a breakout board for operation, and it is typically paired with the Elecfreaks IOT:BIT board by the manufacturer.
Display meaningful output from your micro:bit project with the Kitronik :VIEW Graphics128 OLED display. The Kitronik :VIEW Graphics128 OLED display gives the user the ability to add a monochrome 128x64 display to the BBC micro: bit. The onboard edge connector allows the micro:bit to slot into the board without any additional fixings. The board also features a micro:bit style I/O connector which means it can be slotted into any other micro:bit accessory that has a slot for inserting a micro:bit. All of the pins from the BBC micro:bit are tracked through to provide the edge pads with the full usage of the BBC micro:bit, with the addition of a display. As the micro:bit slots directly into the board, no tools, fixings, or soldering are required.
Power to the board can be provided via the edge connector or from the micro:bit. The board requires a 3V supply and has no voltage protection on the board. The board features an LED to indicate when the board has power. With every display, pixel turned on the board has a maximum power draw of 40mA. The 128x64 display uses the SSD1306 driver on an I2C interface. At the centre of the board are the breakout pads for the I2C lines, along with two ground pads and a 3V power pad. These pads are on a 2.54mm pitch, which means they will fit either wire or a pin header for jumper cables (not provided). This can be used by those who wish to add more I2C devices and functionality. It is possible to change the default I2C address of the board (see the Selecting Display section of this Datasheet for more details).
Features:
Add a monochrome 128x64 OLED display to the micro:bit.
The micro:bit slots into the onboard edge connector.
The board features a micro:bit style I/O connector allowing it to be slotted into other micro:bit accessories.
It can be coded with MakeCode blocks and with Python.
Kitronik has created custom MakeCode blocks.
Kitronik has created a GitHub repo for custom Python functions.
It can be powered via the edge connector or by the micro:bit.
Requires a 3V supply.
The board features a power indicator LED.
It is possible to change the default I2C address of the board.