 All right, so first up we have a couple of revisions. We have a couple of revisions. Okay, first up, open MV cams, the H7R2. We carry the R1. R1 is not available due to a part shortage. But they did have some R2s. They sent us over R2s. The R2s have changed the camera. It's now, I think, an MT camera instead of like an OV camera. It's a little bit higher quality camera module. Otherwise, the same circuit and chip layout and everything is the same. Software is the same because of how it detects which camera you have connected. Prices went up slightly, but otherwise it works great as open MV H7 cam. So go for it, just be aware. It uses a slightly different camera sensor. It's a higher quality one, though. Next up, another revision. Okay, the ultimate GPS has been revised. If you remember for the last year or so, we've been struggling with, or a little bit more in the year, the company that made the GPS modules that we've used for almost a decade now, stopped making them, but we found an alternative. Another company which makes a pin compatible, pretty much software compatible chip with antenna GPS module is available. So we now manufacture it with that. The only real difference is instead of like the NMEA sentences starting with GP RMC, they now start with GN RMC, I think. There's a couple of small changes, but basically we can't get the old ones, and so this is what we got. The quality is the same. The performance is the same. All the functionalities that we've used are the same. In fact, I think some of the people at the new company or even from the old company, they kind of left and decided to keep this product alive. So we're glad to keep the ultimate GPS going. It's our favorite GPS unit, and we're just going to keep making this GPS. Next up. It's Will Ferrell time. Yeah, GP made a little graphic that made it look like Will Ferrell. Why are Ferrells? Why are Ferrells? Look, they're a little bit obscure, but they're still pretty handy. I bought their first album before everyone heard of them. Yes, they're a little obscure, but that's okay. Hold on. It opens this way. So you get different sizes, and each one of these is a little plastic nub, and it's got a metal bit, and actually the metal bit is what you crimp. So you put a wire into here, and the wire actually shouldn't... Oh, this one's a little bit too small. Hold on. Let me grab a gray one. Okay, yeah. So the wire actually goes into the metal bit, and then you crimp it with your crimping pliers to make it nice and flat. You squish it, and now you've got a wire with... It's kind of like those things that you have on the end of your shoelaces, the aglets, I think. I don't know what they're called. But little things that just make it a little easier for you to thread your shoelaces if you have shoelaces. It's basically like that, but for wires, if you're going to be using them in terminal blocks or attaching them in some way where you don't want them, especially stranded core wires, you don't want the stranded cores to fray and break off or something, these ferrules are quite nice. They're a little luxury. They're used often in automotive and robotics, but they're a handy little kit. You get some of every single size from mega huge all the way to like, oh, it's so tiny. That's the official size. Okay. Next, we've got... This is a cable. It's a flex cable that goes specifically from a Raspberry Pi Zero or Zero W to a standard Raspberry Pi CSI camera. We have a couple of different cables, but we didn't have a long one and a lot of people actually wanted a really long one. So we're like, okay, we'll go get one for you. It's just a flex cable. It works just like other cables. One side goes into the Pi Zero. One goes into the camera. This won't work with a non-Pi Zero, like a Pi 3 or Pi 2 or Pi 4. There are different cables that we have. The Pi Zero has a special connector you see on the left. There's a higher density. That's what's used on the Pi Zero. So that's what you'd use this for. Okay. The stars of the show tonight, we're going to do two. The first one is the LED glasses and then we have a final thing. So let's start off with this. So you've got the starter kit and the glasses kit for the LED glasses. So we've had the LED glasses panel on the driver and then people are probably like, hey, so how do I actually wear this? Well, you needed a pair of glasses that we designed it for and we now have the kit in the store that you would attach the LED panel and driver to and it works quite nicely as a mechanical substrate for the circuitry. And the reason we did this is it's very, very hard to make circuit boards that are comfortable and wearable. It's a lot easier to get a $2 or $3 plastic fashion glasses that don't have lenses and then you strap your circuit board to them and then you have this comfortable and very sturdy and well hinged glasses and then you can attach any kind of circuitry you want and not worry because it's not your fancy glasses. So let's, I can show on the overhead how they're attached. Oh yeah. So you can sort of see that these are plastic lenses and so they also have the little nose protecto thing which is very nice and they're big and chunky which is great because we designed the circuit board to fit over them. You can't tell that there are glasses underneath because the PCB hides the glasses and of course the glasses have no lenses but they are very nicely built. They're very sturdy but not too expensive and they have nice thick arms too and so you can attach the driver to the side. I just used I think double sided foam tape or double sided sticky tape but you can also zip tie them to the side. And we're, you know, you can put in your own lipo but because this goes on EMS we just did. Yeah. So because it's on your face. Yeah. Basically when stuff's on your face I was like, you know what, if you want to use a lipo you can enable the lipo battery but the kit comes with triple A batteries and triple A battery holder with a little belt clip and extendo and honestly I think that's like the safest thing because I know the overhead. So you've got your glasses and then you've got this battery case and then, you know, I just clip this to the back of my hoodie or my shirt but you can also tie it to your belt and it's double A batteries or sorry it's triple A batteries. They're not very heavy. They're not very big or bulky and there's no risk of them getting punctured if you're like out dancing or partying or like a biting somebody because you're a vampire and you want to wear these glasses for some reason even though you probably should be hiding if you're a vampire. I don't know, vampire things. And then if you, yeah, again, if you really, really want lipo batteries. Also another thing is oftentimes when I'm wearing stuff like this I'm at like Burning Man or a party or out at like New York City like Halloween parade. I need to have an extra set of batteries with me. Triple A batteries are pretty easy to carry. Swapping out of lipo is a pain. Okay and continuing on our stars of the show tonight. Here it is. This is our star of the show tonight. Besides you, Lady, our customers, our community, all the folks here in the chat, our team at Adafruit. Here it is and this is why the code was broaches tonight. Broaches. Okay. This is a project from, this is Kitty's, sorry, Kitty Flowers by, Art by Physicist. Art by Physicist is the name of the company and Kitty is the person who made these flowers. These are kind of neat. They're these beautiful flower shaped PCBs with RGB LEDs on the front. They're neopixels. And then on the back you've got a, let me see what shape this is. Whoa. It's buzzing. It's too far away, maybe. Hold on. It's like, oh no, I got disconnected from my friend. Okay. On the back is a, that mega 3328 and it looks like you can program it over USB-C here. It's got like, I'm sure some, maybe some USB system going on so you can program it. Access no USB to serial converter. There's a buzzer. There's a little clip so you can clip this on. There's an accelerometer. Oh, it's so tiny. And there's a Bluetooth radio. So, and then you can even see here it says, pair and link. Oh, I see, I see. Oh, yeah, they're linked. So when you have two of them together, they will pair and then they will, you know, know that they're near each other. And when I think they're far apart, one notices and can like alert the other. And you can do like other fun projects where, I'm here. I'll say I didn't, I'm here. I'm here. And then should I go away? Maybe. It still says link. I mean, it's going to work from kinda far away. Okay, fine. I'm going to go, I'm going to go near. I'm going to go far. Okay, bye. Far. It still says link. I don't know how I got it to, what if you shake yours, Phil? Yeah. No, it's the radio still works. I think you have to be like either really, really really far away or maybe like you have to shake it really well we'll play around with these we just got these we just got them in but give them a oh do you want to go to the overhead again oh yeah sorry you're gonna give them a lipo battery they do have a lipo charger but they don't come with a battery so it's easy to ship but we stock all sorts of batteries so you know any any lipo battery stock will work just fine and then there's example code on the DF robot website for how to program this to make like different paired Bluetooth like syncing projects so they come as a pair and you're kind of intended to sort of program them as a pair with one person gets one one person gets the other and then maybe you can like have them communicate with each other and that's new products this week very beautiful