 All right, lady, what is this? This is a 2.1 inch 480 by 480 display. We've showed this off with our Qualia ESP32 RGB666 driver, because this is a raw TTL display. But what's new is that we now have a driver for the capacitive touch. Yay, thank you, Melissa, for writing the driver. Normally, these displays use a focal tack chip, but this one actually uses like a CST, who knows, some other manufacturer for the capacitive touch. But she did a great job doing Arduino and circuit Python libraries. Next up, we're going to get the capacitive touch working for big birthday here. This is the 4 inch diagonal screen, really beautiful, large, covered with fingerprints, bezel capacitive touch. This one has a separate little tail for the cap touch, but we'll make a little breakout for it and hopefully get this one up and running soon. So lots of round touches. All right, Lydia, what's this? This is me testing out my new web of the 3.5 inch 480 by 320 TFT feather wing. Historically, this used an STMP610 or 811 discontinued and end of line. So now it's a TSC2007, which is also I-squared suit and nice. Added a STEMI QT port, still has the SD card we set on off. Oops, forgot to pull up resistor. New boost converter for the backlight and running this demo and the way the demo works is want to test as much hardware as possible. So it draws on the screen, it loads an image from the SD card and then it turns on these little touchscreen paint demo so I can verify that the I-squared C works, the TSC works, the IRQ works, the SD card, the backlight and the display and this hardware is good. Gonna add this resistor and send out some PCBs. All right, Lady, what is this? Well, I had a bunch of time yesterday thanks to having a day off. An eight of fruit would give everybody the day off, which means I could work on some hardware. This ICN-60211, it's a DSI to RGB TTL converter. So on the other side here, I've got this beautiful 4 inch by 720 by 720 screen, but I'm gonna get it working with like these round displays that I've got capacitive touch, bar displays. I've got here my Pi 5, I've got the cable adapter. I'm using my Pico probe to do the console debugging for the kernel hacking, I'm taking a mouse here and then this is going through the DSI connector to the TTL display and it's like a full speed display and I can use my mouse and click things and I can open up a web browser. And right now what I'm working on is configuring the ICN-60211 automatically using this AT-Tiny 1616 and then what I've got here is, oh wait, I've got here is my little CP 2104 to UPDI converter. So there's a ton of stuff going on here. I'm gonna restore my graphics, but what's really nice about using DSI is it's like full color, 24-bit, beautiful, high speed, much better than SPI TFT displays. So it's happening, coming soon. Really, what is this? This is a Raspberry Pi Pico probe and you see here that there's like a little U and here there's a D. This is the debug port for SWD debug and this is a U-art port and this exposes a serial COM port that you can use to debug things like a Raspberry Pi 5. So if you wanna set up your Raspberry Pi 5 and you don't want SSHN and you want the debug output, you can connect to the little U-art port here. It's a JST SH3 using the pre-probe and the cable that comes with it and here it is in the shop, so it's 12 bucks and it even comes with the cable that you need to plug it right in, so there's no sort of required and then it shows up in like here, it shows up as a serial port, not the Sylobs one, this one, COM 8 and then I just use Putty and I'm in and I can like edit my device to overlay stuff. What I'm working on is trying to get these cool displays working. So you need to be able to log into the Pi 5 and debug some kernel stuff, but it's happening and this is a cool handy trick if you have one of these. All right, and live to the top secret... Oh, sorry, this is... The top secret view here. Yeah, so this is, I just wanted to show you because this is kind of fun, I've been working on this. This is the Pi 5 and what's needed is it actually has two display ports, so I'll be able to have two of these displays at once and I'll just focus it in. So this is one of our nice four inch square 720 by 720 displays and we also got like the round displays and the rectangular displays, hopefully working soon and this is going through our, the ICN 6211 dev board. I have to do a couple of changes to this board so it's not quite ready yet, but it connects through the TTL to this chip that then converts it to be able to take DSI data from the Raspberry Pi. And what's nice about the DSI interface is how fast it is. So there's no tearing, it's like instantaneously fast. It has the hard work acceleration updates, so basically it uses the same core as HDMI and I don't think this has internet because I think it was using ethernet, but let me see, I can open up a browser and if this was working, I could catch the internet. Oh yeah, the internet is like, hey, I'm not working. Oh yeah, I don't have, yeah, I did forgot to put in the password, but coming soon and my goal is to make it so you can connect any screen and configure it without having to compile any kernels or do any like complicated device tree stuff that you can be able to plug in anything with the same connector just like we did for the ESP32 S3 but now doing it for the Raspberry Pi. Okay. So coming soon, but not that yet, don't ask. That's not a secret.