In conclusion, the Pixo project is a colorful journey of creativity and technology. We designed and 3D printed a cool enclosure, assembled the LED matrix with a custom PCB, and brought it to life with the Firebeetle ESP32-S2 microcontroller. While the...
After measuring dimensions and consulting datasheets, I've created a basic enclosure using Fusion 360 to house the electronics.Feel free to examine my design, download it, and make any modifications as needed.I have exported the housing and cover...
Once the circuit and electronics enclosure are prepared, use screws to secure the components in their designated positions.Before closing the housing with the cover, perform a quick test to ensure everything is functioning properly.Finally, close the...
Install the Arduino IDE and ensure that the ESP32 Board manager is installed. If you're not sure how to do this, you can refer to this article: Installing the ESP32 Board in Arduino IDE.Make sure you have the DFRobot/DFRobot_RTU (github.com) and cdjq/DFRobot_EnvironmentalSensor...
This 3D printer enclosure is a valuable addition, offering the advantage of an exhaust fan for effective fume extraction, especially beneficial for resin 3D printers. Its substantial size allows for a horizontal configuration, accommodating 2-3 standard-sized...
After assembling the Switch PCB and XIAO Expansion board, we model both components in Fusion360 and create a robust enclosure that holds the XIAO, which is connected to a battery and the switch PCB. We incorporated the XIAO Expansion board on top and...
I opted for a double-slot flush-mounted box (orange) as the foundation for my enclosure. One slot accommodates the freewheeling PCB of the controller, while the other is utilized as intended: it houses a socket (black). The enclosure is made up of a...