@overflo 16x16 2812 Matrix on this one!
@ItsMrJP
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Jason Coon@wizard brilliant work! Here it is running on my wall of Fibonacci & #PixelBlaze, including the "FiboFlower" by @maketvee & Hilbert Curve matrix by @ItsMrJP 🤩
Almost finished!
@overflo nah that is for the next one! This is just a ESP32 and WLED
@geekmomprojects Thank you! 😁
@josh Thank you! Dave makes some beautiful stuff! I just came up with the idea of printing em on translucent filament! https://www.thingiverse.com/thing:6321648
Square Hilbert Panels – Full Height by DaveMakesStuff
Square Hilbert Panels – Full Height These panels are designed to be printed in “vase” or “spiralized” mode to minimize the amount of material needed, decrease print time, and give a smooth clean finish. They could be used as sound diffusion panels, decorations, or just to show off your new gradient filament! See here for video: https://youtu.be/xNsjm7yOsQY Square Hilbert Panel: https://than.gs/m/960851 Rounded Hilbert Panel: https://than.gs/m/960857 This download includes two sizes of panels with 100mm or 200mm edge lengths. There are two mirrored versions of each panel. See here to learn more about the Hilbert Curve and how to properly orient the tiles: https://en.wikipedia.org/wiki/Hilbert_curve Be sure to print in “vase” or “spiralized” mode! The base is 0.5mm thick. I recommend adjusting your settings so that the base prints in only two layers. When printed with a 0.5mm nozzle as described above, the 100mm and 200mm panels use only 28g and 111g of filament respectively. These panels work better as sound diffusion panels due to taller features and sharper angles. The “Minimal Height” panels below don’t work as well as sound diffusion panels but use less material. Minimal Height: Square Hilbert Panel: https://than.gs/m/957250 Rounded Hilbert Panel: https://than.gs/m/957254 Video: https://youtu.be/Gunky5qSwpc More panel designs: Topology Tiles - Hex: https://than.gs/m/955066 Topology Tiles - Square: https://than.gs/m/955067 Models shown are printed with Sovol Rainbow Candy PLA
Woot!
@kbob https://github.com/uklooney/AuroraDropCompanion/tree/master on the software side!
@kbob ESP32 Trinity on this one but I have a few options and a few more on the way. Probably an FPGA at the end of testing. ESP32 aint gonna cut it!
