 No, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no. It's time for a new, yeah. Okay. So, yeah, we were just talking about. Um, well, McDonald farm because, uh, kiddo reacted things and he seems to like that song. So, uh, speaking of things to react to. Though, it's still coming. But the photo's been updated. Any second. The Metro M7 do sign up. We're gonna put a small quantity in, I believe later this week. It'll be probably next week's new product, but we'll run out before next Wednesday. We'll try to notify people, including people on the Discord, especially if we don't notify everybody because we've got a couple thousand signups. We're only gonna have like about a hundred boards to put in the shop to start. But do sign up if you don't get notified immediately. Don't worry. We're making more. Next up. Next up, another Raspberry Pi 3 camera module came in. This is the not NoIR. This is the normal camera module 3 that's not wide. So it's kind of like the one I think people are gonna want the most. This is in stock. So there's like the NoIR wide normal and now the everyday wide and normal. And we're gonna get some photos and videos of all the camera options and like what it looks like. This is the new like super fancy 12 megapixel camera module V3 that has autofocus, really high quality, great for any camera projects. And it's like the same price as the camera V2. Next up. Next up, we've got an update. This is an update to old familiar favorites, the capacitive touch shield for Arduino. So we've used Penguin to make the font really nice. We've also moved the reset button to be white angle, IRF is still there and the STEMI QT port is also new. We added that as a little spot. I thought I could show a quick demo because capacitive touch is nice. This is a beautiful display and it's got a wonderful capacitive touch screen. I will note, you know, capacitive touch is more expensive than resistive. The resistive touch is out of stock at the moment but we'll be coming back because we have to redesign it. So this is, this is the capacitive touch and we auto-focus it. So the colors are a little bit washed out just because it's a screen with a, you know, a monitor with a screen. Let me see if I can draw. Yeah, for this you might want to turn the light off. Yeah, yeah, you're right, maybe not. Yeah, it's bright. It's still washed out, but still, so, you know, it's a nice capacitive touch screen and we've got this little painting demo for it in Arduino. But you know what? It actually works at Circuit Python as well. It's got the FT 2602 or 2606 capacitive touch screen. It doesn't do multi-touch, but it's very, you know, basic and gives you the 240 by 320 pixels to touch points. And then yeah, it's got the 320 by 240 I-Line 9341 screen all connected over SPI for the screen and I-Squared C for the capacitive touch. So the big update as mentioned, you know, on the side now we've got this reset button on the side that you either get to and a semi-QT port for adding and I-Squared C sensors easily. Excellent. We also got an update to this two-inch IPS TFT display as people have been noticing, all of our displays have been updated to have high SPI connectors. High SPI is kind of like STEMI QT for plug-and-play SPI displays. Usually you have so many wires that you have to wire up to get these working and it means that it's like hard to kind of mount the display far away and like I've seen people have a lot of difficulty with having the wires break off or short to each other or soldering issues. So this is it running the demo off of a QT PI so you can show it in the overhead. You can show what it looks like. So it just means, and this is actually kind of great for me because I can show off this demo, you know, the screen protector. Yes. Thank you. Yeah, it's very enjoyable. So you've got this display instead of having to solder all the connectors, this nice flip top FPC connector goes from here to, you know, whatever your dev board is here, I've got a little breakout board to a STEMI QT so the display can go anywhere. Easier to mount, easier to wire, you know, basically a no soldering solution as long as you've got the matching SPI connector on the other side. So this is, you know, otherwise it's the same pinout, display, same SD card, same, you know, level shifter. And we also did a nice silkscreen as well with Penguin. Alrighty, next up. Oh, actually going up to this one. Yep. Okay, then we'll go. Yeah, because it's another display. So this is another, this is a 1.44 inch display with one of our oldest products, 120 by 120 pixels. These were popular displays, popularized for like key chain image viewers. I don't know if you people remember those from like a decade ago. So one of the first displays it was available it's like basically SPI low cost. It's not an IPS display, but it does look quite nice. And the update we've done is like the other displays people have as now and I spy connector as well. We also made the level shifter a little bit smaller to make room. Like I'm making this way easier now. Yeah. If you have this connector, then you can like cool. And it's standardized. It's like everything we're doing with displays has and of course we're gonna make feather wings and we have a breakout just to get started. But really we were had, we saw a lot of customers are just having issues with there's just so many wires required. It's so easy. It's like you can't see it because the display is in the one not the display. So, you know, this is all. So you never know if your thing's not working you never know what it is because there's so many wires going around. Yeah. All right. And then you want to do with it pliers. Yes. This are another set of crimpers from engineer. They're a Japanese crimping plier tool company and they make really good stuff. We've carried their other crimping pliers. So, you know, I do recommend if you're going to be crimping connectors for, you know JST or Molex, you know, if you can afford it try to get the official crimper because of course it's gonna work great or just get pre-crimped wires. But if you can't, the crimpers that are made by engineer are really high quality. They have really good results and they have good instructional videos to get you started with them as well. This does like a range of sizes. You can look at the product page and the data sheet for the specifics but basically your standard small wire crimps that most engineers are going to bump into that are not electrical grade, they're electronics grade. I hope they have like a video or advertising that you did. It's like, hey, hand me those crimpers over there and someone's like, well there's a bunch of crimpers over here which ones are yours? Engineer. Yeah. Oh, engineer. Okay. Hi, I'm Ned. And now we're gonna do the star of the show tonight besides you, Lady Aida, besides our team, everyone who helps Aida4Go, our community, our customers and all those great things, including a tiny baby who is super awesome tonight letting us do the show, it is. Yay, cowbell. It's time for more cowbell. This is our second cowbell. The first one was the prototyping one. I usually did it longer as the second board I make for a platform because it kind of covers a lot of stuff. A lot of people don't do data logging and they also just want to have an SD card socket. So this is a cowbell that goes on a Raspberry Pi Pico board either as Pico or the Pico W, a beautiful silk screen, Penguin, data logger logo that you guys did, you and Boosted and then the cowbell logo. So this is a simple little board that just kind of slips underneath over a Pi cowbell, sorry, a Pi cow or a Pico, and gives you a real-time clock. The PCF 8523, it's a low cost. It's a fairly good quality real-time clock. You're gonna lose a second or two here, but it's inexpensive and I think that's a worthwhile trade-off. And then to go with the real-time clock, there's also a coin cell holder. We don't include the coin cell because it makes it very hard to ship. If you do, so we sell them separately or you can buy them at your local grocery store. It's a standard CR 1220. There's also a reset button because the Pico doesn't have a reset button, so you can press that. A micro SD slot that fits nicely at the end. It's a, you know, Molex pull-pull type so you pull it out, pull it back in. And then on the other end is a STEMI QT port for attaching sensors. So this is basically perfectly designed for you have a Raspberry Pi Pico or Pico W and you want to log data from a sensor and you want to timestamp it or you want to read audio files or data files off of the SD card. Maybe you want to do something with timing. You know, it's a three-in-one board, but very handy. All the little individual pieces are very inexpensive but they fit quite nicely together. So, you know, I put together a very quick little demo that, you know, won't look very exciting, but it can still show off. So, so this is, wait, just turned off the light. Could you hit the autofocus for me, thank you. Okay, so this is a Raspberry Pi Pico and I've got it wired up over the STEMI QT to a BME 280. And then you'll notice that this LED flashes every five seconds. I just wrote a little bit of circuit Python code or maybe it was a read-up code, I don't remember that will read the temperature humidity and pressure off of the BME 280 through the plug-and-play connector and then log it to the SD card and then flush that data to the SD card. We'll publish all that data as well. But, you know, if you wanted to, you know, this is stacked on with stacking headers that are soldered in. You can add, you know, a battery connector. If you'd like, you know, I think we stopped one from Pimeroni that allows you to run a Pico off of a LiPo battery that can then be recharged. So you can take it for like portable data logging or again, you want to host data that has time sensor input and SD card. And then, you know, I did some simple things like if you remove the SD card and then, you know, it says, hey, you remove the SD card and it, you know, warns you like your data's not being logged anymore. And then on the bottom, oh, wait, that's the prototype one. So let me get the final version. It uses the default, oh, thank you. It uses the default SPI port on Arduino. If you're using the Philhauer Core, same with I squared C, that's for the QT and the real-time clock. If you'd like, there's also a SD card detect pin. You know, that pin will short low when a card is inserted or it's the other way around. Basically, you can use it to determine if there's a card physically inside. You can see the little spring that opens and closes when something touches. And a lot of the pins are also duplicated over here. So, you know, you can, you could get to them, they're also labeled. So if you're like, oh, I can sort of solder a wire if I want to get to other IO pins or you could like, you know, as seen here, just solder stacking headers and you put it onto a breadboard or another board that you can get to the rest of the components, the rest of the pads without being in the way of these components. So that is, oh, and then I'll just show on this prototype I do have. I'll show what the battery looks like. So this is when the battery is installed. The prototype is green, your version will be black, but the prototype is green. And then, you know, once you install the coin cell, it'll keep time for up to seven years. Wow. Okay. And that is new products. No, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, here you go. Everywhere new. Everywhere new, new.