 and bopping. Yeah, it's fine. We got Circuit Playground Express is back in stock. So it's new to you if you've been waiting. So we're doing everything we possibly can. And then the code tonight was on case. And the reason is, is because we've wanted to have something like this for a while. And there isn't a USB drive that everyone agrees on that's like, oh, here's the open source one. Or here's the one that's low cost. Or here's the size or whatever. So what we decided to do is just find kind of the best one that has the best price and went through our testing process. I did the test where I test the speed. And of course, I test the test that it's actually two gigabytes. The idea with this is really low cost and a standard size that you can kind of embed inside like a 3D printed object or make something special. It's uncased. That it's uncased. You provide the case. So let's go to the overhead. OK. So here it is uncased. There's a little indicator LED. This is the control chip, which you can Google to find the part. And then this is, of course, the flash memory. Another thing that can be useful for is if you're feeling like it, you could hot air this off. BJ on a separate flash chip if you wanted to rescue an existing USB key that had like a bad controller. It just has a USB-A. But the thing about it is it's uncased. You want a 3D print. You want a mold. You want to do something funky. This is kind of a lump of clay on that. Let it dry. And now you've got a very low cost gift. Here's a pet rock. And on the pet rock is some files. You can also, of course, remove the SD, the USB connector, and solder directly to your single board computer. It's like two gig of memory. Just solder right on of flash memory. So I thought it would be kind of cool to stock these. And no one Pedro will do a 3D model as soon as they're back from holiday. We'll probably 3D print some cool enclosures for this. And then people can take that model and make their own. Yeah. There's a bunch of really neat things that people print out, like they're fans of Star Wars. And speaking of 3D printed Yoda heads, and you could put a little slot in it and then just slide this in there. And you could put something on there, like the files that it was printed with, the STL file. You could put photos on it and maybe a message to someone and give it as a gift. So I thought this was really neat. And it's cheap enough where it just doesn't matter. OK. So this is an encased 2 gig graph. Speaking of USB. Speaking of USB, we have a couple of USB cables. This is a funky one. So we have a 9-volt and a 12-volt boost converter cable that runs off of USB. And I saw somebody was like, can you get one that has both? And I'm like, yeah, there's one that has both. So this is a 9-volt or 12-volt. And it's been a while since I tested this sample, but I think it also displays the kernel. Let's go to the overhead real fast. So it doesn't do data, of course, it just does power. And this shows the voltage. So if I shorted this, it would say 0 volts. And I think on the product page, it's like 1 amp at 9 volts and about 750 milliamps at 12 volts. And then you get a standard 5.5 millimeter, 2.1 millimeter DC jack that you can use to plug into any device with positive tip and negative ring on here. So it's a little more expensive than the individual 9 or 12, but that's because it's combo. OK. All right, next up. So just before we get to the other group of USB things, because I wanted to separate them out so there was no confusion. Yeah. What about these? OK. So we've already got these, and they look so similar to what we've already got. And you're like, what is this? Why? How is this different than the MyFair tag? This is the N-tag 203. So we've stocked the MyFair Classic tags for a very long time. And they're great in everything. But modern phones don't support MyFair Classic because it's an old, slightly less secure RFID tag format. And this is N-tag 203, which is also known as MyFair. Not classic. It's like MyFair Express or something. So these are more secure. They have a longer ID key. They hold 144 bytes of data. You can still use them for all sorts of RFID purposes. But more phones and tablets are going to support these chips in the MyFair classics. So we carry the MyFair classics for when people have old technology. But if you have a choice, we recommend the N-tag 203s instead. They're more modern. They'll be supported for a lot longer. OK. Now, there's a bunch of different types. So I just put one picture to explain what these were. Yeah. So we have four different cables that all look very similar. And these are USB PD cables. And they're kind of interesting. So yeah, let's go look at this. On one end is a USB-C connector. And the USB-C connector will plug into a USB power delivery wall wart. So these are wall warts that you plug into the wall and they have a USB port inside of them. And if you have a Mac laptop or a really modern laptop, this will look familiar. And then you plug in the USB-C into the wall adapter. And then there's a little chip inside the cable. It's really small. And what it does is it tells the adapter, hey, I want you to go into 9-volt boost mode or converter mode or 12-volt or 15-volt or 20-volt. And the output will be 9, 12, 15, or 20-volts based on what the PD converter can give you. So let me show you the PD converter so you know what I'm talking about. Because this is not actually a boost or buck converter. OK. OK. So this is a standard, it's like a laptop charger. It looks very familiar. It's not official Apple, but it's very similar looking. So the travel charger gets basically 110 or 200 volts in. And then it says output. And you see here it says 5 volts at 3 amps, 9 volts at 3 amps, 12 volts at 3 amps, 15 volts at 3 amps, or 20 volts at 3.25 amps. So this is a special kind of USB-C converter that can switch what the output is based on what the cable says. So for example, if I plugged in this cable, which says 20 volts, you can kind of see it. Let me see if I can turn on the light. Maybe that'll help. Kind of barely. You can kind of see it. It says 20 volts on it. Then when this is plugged into here, this will output 20 volts. However, if this wall adapter doesn't say that it can provide 20 volts, it's not going to work. So you have to make sure that whatever you want on this cable end, 20 volts, or this one says 9 volts, or I have a 12-volt or 15, you have to make sure that it appears on this list. Because this doesn't do any conversion. So all it does is convincing. It'll tell the adapter what it wants on the output, but it will not do any power conversion for you. So if it doesn't have 9 volts, you'll just get 5 volts out instead, or you might not get anything, depending on how the adapter handles PD. So that said, as long as you're aware of that, it's really handy. Because instead of having 20 adapters, you have one adapter, and then you have a different cable for every product, you can just swap out the cable based on your needs. And you'll just get the exact voltage you want. And the output here is 5.5 millimeter outer diameter, 2.5 slash 2.1 inner. And the reason it's 2.5 and 2.1 is the hole is 2.5, but you can see there's a little spring eclipse. So it works with both 2.5 and 2.1 millimeter. And these cables are really chunky. They'll handle up to five amps of output, because they have the e-mark chip on them. So a little bit more expensive, e-mark means you can charge your laptop. However, just a reminder, because this travel charger doesn't give you five amps, you're not going to get five amps. It'll max out at three amps. After three amps, you know, you'll not provide any more current. So just keep that in mind. Again, this is not a converter cable, it's a convincer cable. It'll convince the travel charger to do what it already does. OK, cool. OK, next up. We have lots and lots and lots of the most amazing, beautiful LEDs. Yes. So these are in the store. These are unique data fruit. And this is from a friend of ours. We may not have chips, but we do have caps. Yeah. And so these are them lit up. We have rainbow ones. And just to give you an idea of how big they are, they are LED size. So they come in different packs. These are made here in the USA. Mark Devink, who is a friend of the company, is a designer, artist, and more. I worked with Mark at Make Magazine. And we're pleased to support a local artist and have all of these. And there's lots of different types. OK. I like the blue cat. There's a blue cat. It's cool, but let's show the RGB cat first. Yeah, because that has lots of different things. And the succulence is really cool too. The succulence is kind of a secret winner. I thought I would just show all these, and then you could do the overhead. Yeah. And so that's the cat. And then we have the succulent. Succulence is really nice, because you can imagine this being used for lots of cool projects, because it could be lots of different light. I'm sure it looks better than I thought. I was like, wow, it really doesn't. And then it wouldn't be Adafruit without a skull. Yes. So this is a red skull. And these are going pretty fast. But this is what they look like. They're beautiful, and if you want to up your LED game. So let's take a look at them. OK. So this one, I'm just lighting these up with a three-volt coin cell. So this one is the RGB cat. So you see a cat, and you see the embedded LED. Note that you don't get RGB LEDs. It's one of those, it's called a flashing light LED. So it changes color, you see, from red to green to blue. So it slowly goes through all the colors. But it's like, you see toys and stuff that often have, necklaces or jewelry that have these little LEDs. So it's a way to add rainbowy color without any controller. So that's the RGB LED. And then you want to see the blue kitty. Yeah, well, this is what it looks like here. But then we like showing real live demos. And we have all these nice photos we took. So this is the blue kitty. It's a nice little kitty. You can see from different sides. So again, I'm just lighting up with a coin cell. But you can see it's so nice at the cat. And then this is the blue kitty. And then let me show the red skull. Here is the photo that we took. And then we'll show you live red skull. You also have the white skulls, so red skull. OK, and then finally, last but not least, is the green succulent, which I think is kind of the coolest one. Yeah, it is a cool one. Yeah, I think it's because it's like the center is lit up, but then all the little leaves are glowing. So it looks, I mean, it's hard to show on the overhead, of course. But in person, it just looks like a beautiful glowing cactus. Yeah. OK, and then the start of the show tonight, besides you, Lady Aida, our community, our customers, our team, and this blue cat is? Is the Feather TFT ESP32 S3. We have a much loved ESP32 S2 TFT. Swap out the module with the new S3 four megabyte flash, two megabyte PSRAM. And boom, you've got a lovely two core 240 megahertz Tensilica chip with four megabytes of flash, two megabytes of PSRAM. It's got Wi-Fi and it's got Bluetooth. And we've got that TFT, Stem-AQ-T port, battery-powerable, battery monitor built-in, low power capable. You can turn off the I-Squared C port even. It's just a altogether, a wonderful little board. And I think it's going to be super fun and powerful, especially for people who want Bluetooth. Or they need two cores, because you get, of course, the extra power. So here's just a quick Arduino demo running. Of course, it's Feather compatible. It's got all the pins you'd expect, so you can use it with your first sensor feathering, if you'd like. You've got the reset button and boot button, Stem-AQ-T port. That's vertical style. So if you want to plug in, always get it in backwards. I want to line it up. Boom. You can plug in more sensors. And you'll notice as I plug in this sensor, it shows up on the I-Squared C scan. So you disappear it and then it reappears. Battery monitoring using the LC709203, which is a really nice low-power battery monitor. We use that because the ESP32 doesn't have a very linear ADC. So having external sensor do it is a good idea. It's a little module with built-in antennas to get really good Wi-Fi and Bluetooth support. And I think this will be great for use with Arduino or Circuit Python, especially that 2 megabytes of PSRM makes it a very good Circuit Python board. You have a lot of memory. And it means that you can get Wi-Fi data, do a lot of JSON parsing, control LED matrices, control NeoPixels, control TFT displays. The S3 is a very powerful and a lot of cool peripherals that you're going to see coming out for it. And that is new products.