Our revolutionary snowboard integrates at least, a 512 LED screen and two 50 stripes to display messages, animations and logo’s. Designed with high-quality sensors, this snowboard is the perfect choice to stand out on and out of the slopes.

Built on an Arduino Mega 2560 base, our product features a temperture sensor, an audio analysis sensor, a custom-made PCB, batteriers, a remote control and a unique program designed to respond also to remote and an Android App. The programmed behaviors allow for infinite customizable message displays.

The R&D team (me 😀 ) is continuously working on new features to improve the user experience. However, I decided to present this remarkable prototype to the public during Tomorrowland Winter in l’Alpe d’Huez.

If you’re looking for a unique and high-performing snowboard, don’t look further anymore and choose the only one with LED screen & high-quality sensors !

The current features are :

  • Functional Snowboard
  • Ambient animations
  • Messages, bar control, community gathering signal.
  • Ambient temperature and humidity, color variation according to the value (C° or °F)
  • Sound analysis and projection of results on LED matrix (7 bands)
    63Hz, 160Hz, 400Hz, 1kHz, 2.5kHz, 6.25kHz, and 16kHz
  • Broadcasting of logo’s and promotional messages
  • Commercial incentives
  • Text editor and immediate wireless push
  • Bluetooth command
  • Currently around 12 differents programmed behaviors

The functionalities under development are :

  • Integration of LEDs during the manufacturing of the board
  • Integration of charger plug
  • Wifi – SD card

Some future devs

  • Full leds board
  • Full screen
  • Game Mode
  • Locator
  • Altimeter
  • Gyroscope
  • Accelerometer
  • GPS
  • Box design
  • New animations
  • Animated GIFs Broadcasting

Battery NIMH 6v 2200 mAh
Each board will include 2 batteries + Plug and charge USB cable.

Theorical electricity consumption:
Depending of the behavior you’ll activate, the amount of LED’s will increase / decrease and so the entire consumption.

Battery capacity (mAh) = (total power consumption in W * 1000) / nominal voltage in V * usage in time.

For example, for 10 minutes of use :
Battery capacity (mAh) = (6.036W * 1000) / 5V * (10/60) = 603.6mAh
For 20 minutes of use :
Battery capacity (mAh) = (6.036W * 1000) / 5V * (20/60) = 1207.2mAh
For 30 minutes of use :
Battery capacity (mAh) = (6.036W * 1000) / 5V * (30/60) = 1810.8mAh

Each board will come with at least 2 batteries of 2200mAh

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