RP2040 피더 보드 -DVI 출력
(Adafruit Feather RP2040 with DVI Output Port - Works with HDMI)
개요
- 본 제품은 RP2040 피더 보드 -DVI 출력 입니다.
- RP2040 마이크로컨트롤러를 장착한 피더 보드로 디지털 비디오 출력 (DVI)를 지원합니다.
- 리포 배터리 지원, USB C 연결, 네오픽셀 LED, 8MB 플래쉬를 지원하며 CircuitPython이나 PicoDVI library in Arduino 혹은 Pico SDK 와 사용이 가능합니다.
특징
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Product Dimensions: 53.0mm x 23.3mm x 7.7mm / 2.1" x 0.9" x 0.3"
Product Weight: 7.2g / 0.3oz
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Wouldn't it be cool if you could display images and graphics from a microcontroller directly to an HDMI monitor or television? We think so! So we designed this RP2040 Feather that has a digital video output (a.k.a DVI) that will work with any HDMI monitor or display. Note it doesn't do audio, just graphics!
It's kinda like we took our RP2040 Feather and DVI Breakout board and glued them together. You get all the pins for use on the Feather, the Lipoly battery support, USB C power / data, onboard NeoPixel, 8MB of FLASH for storing code and files, and then with the 8 unused pins, a DVI output that can be used CircuitPython or with the PicoDVI library in Arduino or Pico SDK
In Arduino, which is what we recommend, we use our fork of PicoDVI to create an internal framebuffer of 320x240 or 400x240 16-bit pixels that is then continuously blitted out as pixel-doubled 640x480 or 800x480 digital video. Whatever you 'draw' to the internal memory framebuffer appears instantly on the digital display in crisp color. Since the library is a subclass of AdafruitGFX, it'll be familiar to folks who have used our TFT or OLED displays before.
There's also DVI output support in CircuitPython as of 8.1.0b2 - but note that it uses a lot of memory so in particular if you want to add other hardware accessories and libraries, you may need to configure it to be a lower-memory monochrome display.
Note that the DVI video generation uses one full core, both PIOs, and 150K (320x240) or 190K (400x240) of SRAM. It's kinda maxed out so be aware of the remaining resource limitations.
We also connected the HDMI-connectors I2C pins to the SDA/SCL of the Feather (through a safe level shifter) so you can read the EDID EEPROM of displays, and have broken out the CEC and Utility pads. The Hot Plug Detect pin is also available on the very end of the 16-pin header. Read this pin to know when a display has been connected!