 So let's do a new product, ready? Okay, let's do it. No, no, no, no, no, we are back. No, no, no, no, no, we are back. Back, back, back. We are back for new. What? Good song. Okay. Rocking it out. Okay, this is back in stock. Like it was coming soon, it's now available now. These are the FPC cables that are 25 centimeters long and they're used with our little green FPC to two by 20 IDC adapters. You plug these on the end and you can make custom Raspberry Pi extension cables or GPIO cables of like any complexity and the flux cable is much thinner than normal IDC cables. So they're great for making like twisty, turny cable contraptions with Raspberry Pis and hats works with any Raspberry Pi with a two by 20 header. So those are in stock. All right, next up. Next up, we've got some more Pico blade connectors. We now have five pin and six pin. These are pigtail pairs. So one is a socket connector, one's a plug connector, you plug them together. These are really compact and thin. So if you're looking for a very compact, much more compact than JSTSH or XH cables, these I think are one millimeter pitch. So maybe I'll show them real fast on the overhead to show just how small they are in case people don't know how big a quarter is. So you can see here, they're really small. And this is six pins and these snap together very nicely. Hold on, let's make sure I snap them the right way. Okay, this they go this way. Yeah. So they snap in together. So they're nice and solid and the cables are nice and flexy. They're about 10 centimeters each. So together it's about 20 centimeters total. We've got them in other pins as well, like two, three, four, but now we've added five and six. All right, next up. Okay, we've got two new Pico boards. And I gotta look at these because they're this confusing. This is the ESP32 Pico with USB-C. So we've already carried a board that's like almost identical to this, except with a microbeat. Well, now for USB-C fans, we've got the USB-C version. So it's got a lovely layout, USB-C, a nice chunky antenna. It's got ultra low power. Here's the pinout diagram for it. USB-C, teeny Pico. People who like these are from Untitled Maker. They're wonderful if you are an ESP32 fan because they're like, they're very compact. Unexpected makers in the chat too. Well, they can answer any of your questions. And maybe, you know, they also have very nice pinout diagrams, very nice. Okay, we also have, wait, this is the ESP32 S2. Yeah, sorry, they look nearly identical. Similar. Very similar. So the ESP32 S2, it runs circuit Python. And this is the new version of the ESP32 processor. It's single core, not dual core, even though there's like a two in the name. However, it does have native USB. So that's why you'll notice that there is, while there's a reset boot button, there's no CP2104 like there was on the previous one. Let's make it as a native USB and a native USB boot litter. So you can use it with Arduino. They recently updated the IDE board support package 2.0.0, which has added support, much better support for ESP32 S2. And of course, circuit Python has great support as well. There's another pinout. Another pinout diagram. So I'm pretty sure they have like compatible pinouts, but again, Untitled Maker. Untitled Unexpected Maker will be able to answer your detailed questions and also check out their site, which has tutorials and more. Next up. Ooh, clicky keys. So we've put in the store KL keys and there's four common colors. Now there's like, okay, I get it keyboard people. There's like five bazillion types of keys, but really there's only four that people want. There's white, which is clicky. There's brown, which has like a little tactile bump and there's red, which is linear. And then there's black, which is like a stiffer linear. And the thing is it's hard to, you know, you can describe them and be like a 60 gram force. People are like, what does that really mean? It can't be explained. It can't be explained. It must be shown. It must be clicky. So this is a little tester and it comes with a lot of nice plastic cutout and it has one of each key. Now you can only just buy the keys, but maybe you're like, look, you know, I want to, I want to just press them. So it has the red one, the clicky white one. This is the tactile brown one. And then like the stiffer linear one with the black stem. And you know, you can, you can pop these caps off and replace them with your, your favorite caps like kitty caps or if you have like a, a DSA cap, but it's just meant for you to test them. It's a little tester. So that's it. You're wondering, which one should I get? If you pick up one of these, you'll always be able to get a good feel for it. I know, I thought this was handy. When I was buying kale switches, I got one of these to start to get a feel for them. All right. And that brings us to the, almost the stars of the show. Not the star, but getting close. Getting close. What is this? Ah, I said a lot of these. What is this? This is a metal aluminum key cap with silicone translucent toe beans. I mean, this was basically made for me because I love black cats and I love it when my cats have translucent body parts. No, I don't know. It's good for neokies. So let me really get in close on the overhead to show it off. I got to use this overhead. Okay. So here's, it's a Cherry MX compatible key cap. So it's got the little X on it. And this is like a translucent material. And then this is metal. So this is a little bit cold, but it's like a, and it's painted black. And then these are like silicone toe beans. So they feel like a little cat toes. And you just kind of want to put your fingers in between them. That's right. I don't know. I don't know, I got a problem. So you put them on your key caps and if you have neokies, like if you have one of our boards that has a neopixel underneath it, you will notice that the RGB LEDs shine through. Now, I will say, you're probably wondering why did the toes light up and not the pads? Well, that's because on most keys, you know, the stem doesn't glow. It's like from the edge. And so usually that's why you'll see like translucent key caps have, the printing is on the top or the bottom because, you know, you can flip this around. So it's the pad that's lit and not the toes, but you can't get both. So I'm explaining. It's like, it's not broken. It's just, these are how key caps work. So you decide. Do you want glowy beans or you want glowy pads? You know, I can't choose for you. Look deeper to your soul and you decide. However, these are adorable and they work with any Cherry MX compatible switches. They're not cheap, but it's 20% off right now. That's right. Just briefly. Okay, next up. And they're cheap on the other side. The stars of the show tonight. So I do lead you to our community, our team and all of our customers. First up. Trinkies, twinkies by the little pocket friend. So you think that this little armadillo, when you kick him, he like emits little key caps. Like what's this? Bing bing. Bing bing. Like a super barrio coin block. Okay, so this is the, so we've been working on trinkies for a bit. I just wanted to have some, you know, people were making little like cutie pie based single key or single rotary encode. Like Todd Bot was making a bunch of these. And I saw some other people doing these, making like one key USB key connectors. And I was like, that's kind of a cute idea. So this is a little bit of a mix of it's a USB key and a trink, a trinkie, right? I'm sorry, a trinket. Oh, like our Samdy 21 board. And it's also kind of a little bit similar to a DigiSpark, right? Which is this USB A breakout board. So it's a USB A connector and it just has like the minimum stuff to run Arduino circuit Python with a Samdy chip on it, which is the same as the trinket chip. It's a Samdy 21 E18. Cortex M0 running at 48 megahertz with 32 K of RAM, 250 K of flash. So it's a super overpowered Arduino or like kind of like the bare minimum circuit Python you need to do this. There's capacitive touch on the end. There's a NeoPixel that's what the Neo stands for. And then there's a solder spot for a single MX compatible key. It's not a socket you have to solder the key in because the key would just like flop right out. So you have to solder it in. And at the end there's a little like slot for you can like tie it to something and there's a capacitive touch pad. So I just, I'll just show the same overhead that I just did. I have it with this adorable kitty key cap, although I can replace it with one of these DSA caps if you want something a little bit more less kitty. So it's just like one key. You can use a super low profile KL Choco key but I just know that we don't stock those but anything that's MX compatible with the big center dot and then the two holes you solder in. You can reset button and the NeoPixel. And then you can program it to be anything. And in Circuit Python we have a bunch of example code or we know we also have example code. You want it just to be like a mute button. You want it to like auto launch something. You want it to just type out some emojis. Whatever you want, maybe you have an old MacBook and you want the escape key back on your computer. Add a single key. Okay, next up. With NeoPixel. More trinkies. Okay, another trinkie. This is rotary trinkie. Okay, rotary trinkie. So rotary trinkie as you might imagine is a USB key with a rotary encoder on it. And there's a little RGB LED. The RGB LED points down by the way. The encoder itself is not one of the RGB encoders for reasons. So it's again USB-A. It's got a SAMD 21 on the bottom. Crowned all the parts you need. We reset button. Capacitive touch pad on the end. Rotary encoder with a switch. It runs Arduino or circuit Python. So I'll show that as well. So this is, I have a hat on it and then you do have to solder in the rotary encoder. We might offer a version with the rotary encoder soldered in but I think there's some variations in rotary encoders. So we're not doing it yet. You just pick up an encoder and you can see the RGB LED on the bottom here shines down and you can twist to your heart's content. And we program it however you like. Right now I'm just doing a little demo that does a rainbow swirl because it's very easy to show off. There's also a tactile button so you can click. So a common thing is like a volume up and down knob or like a Microsoft dial emulator. I actually turned this into a very handy thing for me which is a YouTube play pause and then frame advance or backtrack. So you can go frame by frame through a video online because I was like trying to get some screen captures. But whatever you want like a rotary encoders are a lovely user interface device and so you can just plug it into your USB A port and add it and we program it, customize it in Arduino or circuit Python. And that's new products. Yay.