 Okay, new products, very first new product this week is? This is an updated product. So the company that we used to get our EL wire from WANU, they unfortunately went out of business, which is a shame because they made really great EL stuff. But we found a supplier that's almost as good, but a couple of products are slightly different. So this audio reactive EL driver, just kind of like a common, you know, simple project for beginners because there's no coding involved. It's just audio comes in and it reacts to sound. So this one is no longer six volt. It's now five volts that comes with the USB connector and you just plug into USB, but it's still audio reactive. It works a treat and it's a great like simple, you know, you want to have a project that is reactive to sound but you don't want to do any coding. This could do the job very well. It just plugs into any standard EL wire using like the classic JST connector. A ton of projects with a lot of time and effort and anger and frustration would be saved by you're probably, for a lot of folks who want to do sound effect activated stuff, this is probably what you want. Yeah, maybe we go to the overhead. Let's go to the overhead. I'm gonna just show this really fast. So you use, you can use like a USB lipstick connector. I mean anything with USB output will work and you can see as I speak, it's reacting to it and it gets brighter and it confuses the camera a little bit. So you can use this with any EL panel or wire or tape? Yeah, it's kind of brightening here. However, let's go to me real quick because I'm gonna try something. So can you hand that to me? So if you had a costume, you know, you could potentially, you can even see it because you could potentially have this as like, you know, on the mouth or something like that. It would look like it's talking. Animating. So, hello. Hi. Yeah, that's kind of cool. This is neat. Yeah, do you want that on your eye? Yeah. Great. That's my product demo. Nice. All right. Next up, I can do this one. So we have, we do women's shirts first in our store. It's a rule for us because if you're a woman, you never get women's shirts. And especially in like tech companies, they're always gigantic male shirts. So we now have male shirts because we did the women's shirts first. So this is a shirt from the share zone. It says, I don't collect NFTs unless you're talking about nice fucking D shirts. So this is our response to the people who continue to think that we do NFTs. We don't, but we do have a nice collection of T shirts. We do have an NFT gallery on Adafruit.com. Adafruit.com slash NFT. Check out all the shirts that people wear, lots of black shirts with skulls. And here's me modeling it. I don't have any NFTs, but I have the shirt. So check it out. Yeah, I don't either, but I have one of these shirts too. Yeah, but you know, we get blamed for it. Okay, next up. All right, next up, we have some more, you know, these are called like aeronautic connectors, but these are not to be used in aeronautics. It's just the style. I think these are really neat. When I was at the media lab, we did a project with these connectors, but we were using the very, very expensive type. These are, you know, similar enough that they have the same look and feel. Again, they're not male spec, but they are a great alternative if you just want to have like a keyboard project or like any kind of user interface project that has a panel mount with this interesting, like safety lock type. Tiny lightsaber. Can I get a little more? It's a lightsaber for ants. It's a lightsaber for ants. So let me go to the overhead because this is kind of a weird connector and I want to show how it works. Yeah, this looks just like the lightsaber, so I was looking at it earlier today. It does. Maybe the lightsabers were based on this. Look at this. It's a mini lightsaber. Okay. Okay. Focus. You can do it. You can do it. Okay, I think I got it. Okay, so it comes in two pieces. So we have another one, the YC8 series, and it's wired wire. This is a wired panel. And this is actually two pieces. So what's interesting is that if you try, you can't pull these pieces apart. This is the panel mount part and this is the connector, but if you pull on this, it comes apart very easily. So there's this little spring. You can barely see it, but there's a little spring piece that comes out. There you go. And if you pull it in, you can then remove it, but otherwise it's locked in. It's also keyed, all the red dots have to line up. They snap in very nicely. And again, you cannot remove it until unless you yank on this part. So this is like, you don't have to worry about it coming apart from being pulled. But if a human pulls on it from the right location, if you're just holding it at this spot, it'll come apart very easily. This is a panel mount connector. So it's got a locking nut and a hex nut. And then, you know, you can solder to the four or five wires. We have a version with, actually, I think I only, oh no, I have the five wire version here. So this version is five. Is this the other product? This is all together. Okay, so I can show, I can show this. Yes, we have a nice little demo of the same thing, but with nicer nails. And then the panel mount connector, four pin and five pin. The reason I did four pin and five pin is four pin is like USB standard and five pin is, you know, USB plus shield or something. You know, there's, there's I squared C USB. There's a lot of things that four, five pins can do. You can do some, you know, simple SPI maybe as well. So the only thing to watch out for is the cable connector side. You really need to, there's a section inside of it. Can go to the right again. Yeah. There's inside you have to solder to these pin contacts. And this comes apart. There's a, I think I need a tool to, I need a pair of pliers, but this comes out. And then there's this collar that is collet that grabs the shroud of the wire. And so your wire really, really needs to be the exact diameter that we mentioned, which is I think like four to five millimeter. And it can't be thicker. It has to be able to get through this little section in order for it to grab, hold on, there you go, for it to grab it so that when this part screws on, it's when you, when you pull the collar is what's grabbing onto the sheathing of the connector, the cable connectors. That's the only thing to watch out for is whatever cable you use, make sure that the outer diameter of like the rubber PVC casing is within the range for this connector. And it's like, I think four to five millimeter or so. And it really has to be in that number. It can't be too less and it can't be more. If it's a less, you can add heat shrink to the outside of the cable when you solder before you solder it in. And that can help give you a little bit of mechanical thickness for it to grab onto. But it really needs to grab onto it for this thing to work out. So yes, these are kind of cool panel mount and you know, quick release connectors. And they're like very beautiful. Next up we have another version of the ESP32 S3. This is the room two. I think this has 32 megabytes of flash, eight megabytes of PS RAM. This is a maxed out. So this has like the most of the most of the most. And we just wanted to offer it because some of the other versions were not available. It's got the ESP S3 in it. This is a dual core USB native ESP expressed by controller with Wi-Fi and Bluetooth. It's got two USB ports, one for the debug port that goes through the USB serial connection. One is the native USB port for native USB development, which we use in circuit pythons. This is a nice little dev kit. I know we have like a couple of different flavors but with the chip shortage, not every version of PS RAM and flash is gonna be available. So like we wanted to carry all the different ones in case like if you needed one and there was one with more RAM available, you could use that for development while you're waiting for it to come back into stock. But this chip is a new Arduino supports coming in as of this video. It's being like merged into Arduino circuit python working on it as well. So it's a very new chip, but it's very exciting because it's a very powerful and it's very inexpensive. All right, next up we have a hill bunch of pots. That's why the code was Lynn Potts. Yes, we actually have one Lynn Potts, the rest are actually audio pots, the log pots, but these are dual pots. These are dual gang pots. We have them like one K5K, 10K, 20K, maybe 50K, 100K and then mega ohm. So this is the end of the pots. Yeah, I decided not to put in like every photo because there's like 50 photos. They all look very similar. So what I did was I just put in the ones that were like, here's three. So that's just the single, we have like one single. And the duals are I think kind of new this week. The duals are, it's dual gang, there's two pots, two's totally mechanically and electrically, sorry, mechanically they're connected, electrically they're completely separate. These are often used when you want to control stereo signal. They're all log pots so that they're good for volume control. Although there can be some other like tuning or fading or mixing or whatever that you want two potentiometers that are like matched. They're synced up. So these dual gang pots will do the job. They have point two in spacing, you can use them in perf board. They're often used in synths, mixers, DIY audio projects, you know, panels, modules, et cetera. We want to stock a collection of alpha pots and it's just easier to get kind of one of each. So now we have one of each. Okay, let's start this show tonight as I dilated our community, our customers, our Adafruit team and everyone who makes all this go is. This is the ADXL 375. It sounds and looks a lot like the 345, but it's more, it's the 375. It's 30 more than the 345. This is a plus or minus 200 G accelerometer. So we've carried another 200 G accelerometer, the ADXL 377. That is like kind of being discontinued. It's an analog output, high G accelerometer. We wanted to have an alternative for people who wanted to do rocketry projects or anything with a ton of force. I don't really, you know, I don't know anything other than rocketry and maybe like race cars or like projectiles, what would possibly have such high G forces. But if you need to measure high G forces like that, this is your breakout. We're about soccer leagues. We're about soccer leagues. So plus or minus 200 G, not adjustable. That's the fixed range. You can change the sample rate. I think it goes up to about a kilohertz or so. You can use I squared C or SPI. It's got two interrupt pins. And we put on this breakout that STEM activity compatible with four mounting holes. So you can, you're gonna have to mechanically connect it strongly to whatever it is that's going to 200 Gs, right? So you have four mounting holes. You can use I squared C or SPI, your choice. And what we kind of need about the ADXL 375 is it's actually like the register map is identical to 345 or the 343. So if you happen to be using a library that has support for the 345, you can drop this in and then just multiply the Gs by like 10, whatever the number, you know, 10.5 or whatever to make it, sorry, by 100 you can make it instead of plus or minus two Gs, plus or minus 200 Gs. And then the interrupt code and like the shock detection and SPI versus I squared C and the IRQs all act the same. It's pretty much, it seems like it's kind of the same chip but they took away the range select and they just made it so it's a lot less sensitive. It's good for up to 200 Gs. I'll say that there is an offset to these accelerometers and it's more noticeable because it's plus minus 200 Gs. You'll notice a 1% offset. And so these are not very good for measuring gravity. Like if you wanna measure gravity, which is one G, use our two G accelerometers or four G or eight G accelerometers. This is really not good for that. This is gonna be really good for, the thing is going incredibly fast and you have to measure very high shock or accelerations. Escape gravity. Yeah, yeah. This is not good for your general purpose. Like, oh, I wanna measure tilt or motion or even sports, you know, human level motion. This is for, this is for your jet. It's for your rocket. All right. And that is new products.