Bring a little bit of Times Square into your home with this sweet 64 x 32 square RGB LED matrix panel. These panels are normally used to make video walls, here in New York they see them on the sides of busses and bus stops, to display animations or short video clips. Adafruit thought they looked really cool so they picked up a few boxes of them from a factory.
This version is the 3mm pitch 64x32 RGB LED Matrix. Please note you cannot use an Arduino UNO to drive this size, its way too big! Use an Arduino Mega, Raspberry Pi, BBB or other device that can handle displaying to RGB matricies and has plenty of RAM.
This panel is a lot like Adafruit's 4mm Grid 64x32 RGB LED matrix panel, but the LEDs on this one are a little closer together (a 3mm pitch) so you won’t have to stand as far away to appreciate it. It's made to look good indoors, even with a wide-angle view (160 degrees) and look great in ambient light. If you want a wider pitch for a farther viewing distance, check out Adafruit's 6mm pitch 64x32 RGB LED Matrix or Adafruit's 5mm pitch 64x32 RGB LED Matrix.
This matrix has 2048 bright RGB LEDs arranged in a 64x32 grid on the front. On the back there are two IDC connectors (one input, one output: in theory you can chain these together) and 12 16-bit latches that allow you to drive the display with a 1:16 scan rate.
These displays are technically 'chainable' - connect one output to the next input - but Adafruit's Arduino example code does not support this (yet).
These panels require 13 digital pins (6 bit data, 7 bit control) and a good 5V supply, up to 4A per panel. Adafruit suggest Adafruit's 4A regulated 5V adapter and then connecting a 2.1mm jack. Please check out Adafruit's tutorial for more details!
- A single 64x32 RGB panel,
- An IDC cable
- A plug in power cable
- Adafruit also include 4 mounting screws and mini-magnets (it appears these are often mounted on a magnetic base).
Keep in mind that these displays are designed to be driven by FPGAs or other high speed processors: they do not have built in PWM control of any kind. Instead, you're supposed to redraw the screen over and over to 'manually' PWM the whole thing. On a 16 MHz Arduino Mega, they managed to squeeze 12-bit color (4096 colors) with 40% CPU usage but this display would really shine if driven by any FPGA, CPLD, Propeller, XMOS or other high speed multi-core controller. The good news is that the display is pre-white balanced with nice uniformity so if you turn on all the LEDs it's not a particularly tinted white.
Of course, they wouldn't leave you with a datasheet and a "good luck!" Adafruit have a full wiring diagrams and working Arduino library code with examples from drawing pixels, lines, rectangles, circles and text. You'll get your color blasting within the hour! On an Arduino, you'll need 16 digital pins, and about 3200 bytes of RAM to buffer the 12-bit color image.
- The back of the matrix will either be green or black
- This product may come with one or two power connections
- There may be a short coupling data cable installed in the center
Note: Shipping theyight reflects UPS' new dimensional theyight regulations.
- Dimensions: 191mm x 96mm x 15mm / 7.5” x 3.8” x 0.6”
- Panel theyight with IDC cables and power cables: 189g
- 5V regulated power input @ ~4A (with all LEDs on)
- 2000 mcd LEDs on 3mm pitch
- 1/16 scan rate
- Indoor display, 160 degree visibility
- Displays are 'chainable' - connect one output to the next input - but Adafruit's Arduino example code does not support this yet
- We have a full wiring diagrams and working Arduino library code with examples from drawing pixels, lines, rectangles, circles and text. You'll get your color blasting within the hour!
- Raspberry Pi LED Matrix Display
- NextBus transit clock for Raspberry Pi
- Adafruit RGB Matrix + Real Time Clock HAT for Raspberry Pi
- 32x16 and 32x32 RGB LED Matrix