This project aims at providing an easy to use solution for building your own MoonBoard LED system using an Arduino. It is both compatible with a normal MoonBoard as well as with the MoonBoard Mini. You need an Arduino Nano 33 BLE (buy the original!), a WS2811 LED string with 25 cm wire length, and an appropriate power source.
This project is compatible with the "new" MoonBoard app. All features (show beta, show lights above holds) of the app can be used. Multiple users can connect at the same time (multi user support).
- IMPORTANT: If you want a product that just works, please buy the one offered by Moon Climbing! This project is neither supported nor endorsed by Moon Climbing!
- This is a project which requires some work and still might not work as well as the original.
- To be absolutely clear: This project is provided as-is. I take absolutely no responsibility that it works as expected. In fact, it might break at any time. You have been warned!
- Never power the Arduino only without powering the LEDs when the data wire is connected to the LED string! This may destroy the first LED! Just use the same power source for both of them and don't disconnect it.
All the heavy lifting in this project is done by two awesome libraries: NeoPixelBus (for the LED string) and HardwareBLESerial (for BLE functionality). They make it possible to keep this project quite short, easy to understand, and easily maintainable.
The LED strip has three wires: +5V, GND and data. Usually, blue is GND ("negative"), brown is +5V ("positive"), yellow/green is data. Please double-check! You can find a wiring diagram at the bottom of this page.
Connect the data line to pin D2 of the Arduino (unless you changed it in config.h). It might be a good idea to use a resistor (e.g. 330 ohms) in the data line!
Important: Make sure that both the Arduino and the LED string share GND! Simply power both the LED string and the Arduino by the same power source. Use the USB connection for flashing and debugging only! If GND is not connected, the LED string will not work.
Note: You can use different lengths than 25 cm. If you use shorter cables, you might need to adjust the pattern in order to skip some LEDs (see below).
- Download and install Visual Studio Code.
- Install PlatformIO in Visual Studio Code.
- Download and open this project. To do so, either download it as a zip file or git clone it.
- Adjust config.h settings to your needs (Moonboard type, brightness).
- Compile and flash to an Arduino Nano 33 BLE.
- Use the MoonBoard app to connect to the Arduino and show the problems on your board!
- Download and install platformio
curl -fsSL -o /tmp/get-platformio.py https://raw.githubusercontent.com/platformio/platformio-core-installer/master/get-platformio.py
python3 /tmp/get-platformio.py
- Download, install and configure arduino-cli
mkdir -p ~/apps/arduino-cli; cd ~/apps/arduino-cli
curl -fsSL https://raw.githubusercontent.com/arduino/arduino-cli/master/install.sh | sh
~/apps/arduino-cli/bin/arduino-cli core install arduino:mbed_nano
- Clone the repository
Press the green "Code" button on github and copy the HTTPS url.
If you don't have
git
installed on your Linux distribution, please install it first.
mkdir -p ~/src; cd ~/src
git clone Put_HTTPS_URL_here
cd ArduinoMoonBoardLED/
- Adjust config.h
Follow the instructions in the file ~/src/ArduinoMoonBoardLED/src/config.h in order to adjust the configuration to your setup.
- Compile
~/.platformio/penv/bin/platformio run
- Attach the Arduino Nano BLE to your computer using a MicroUSB cable and upload the firmware
~/apps/arduino-cli/bin/arduino-cli upload -p /dev/ttyACM0 -i .pio/build/nano33ble/firmware.bin
- Optional: connect to the console output of the Arduino to see connections and problems
~/apps/arduino-cli/bin/arduino-cli monitor -p /dev/ttyACM0
- Use the MoonBoard app to connect to the Arduino and show the problems on your board!
The most common LED wiring pattern goes like this (front view):
- start bottom left (A1),
- up the column (to A12),
- one column to the right (to B12),
- all the way down (to B1),
- one column to the right (to C1),
- and repeat.
The MoonBoard App encodes holds in the same way. Hold A1 is 0, hold A2 is 1, hold A3 is 2 and so on.
If you need to wire differently, you'll need to adjust the ledmapping[] array in config.h which maps hold numbers to LED numbers. The standard mapping is n-->n (e.g. hold #0 is LED #0, hold #1 is LED #1 and so on). You can find an example for a custom mapping in config.h: The first few LEDs are skipped, then 24 LEDs in a row are used (for a MoonBoard Mini), then 2 LEDs are skipped (to get across a wooden beam at the back) etc. Adjust this to your needs if you have a custom wiring and/or want to skip LEDs to facilitate wiring your LEDs at the back of your board.