 No, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no. You said, you said, noosh, didn't get in trouble. It'll be OK. All right. First up this week. OK. Our revision, but it's a pretty big revision. This is the Micro LiPo. It's our plug-in to USB and charge your battery. Charger, we use this for our LiPo batteries. And it's very convenient because, again, I just love to plug into USB and then just charge up your battery. The older version had a jumper. It originally would come with 100 milliamps. And then there'd be a jumper on the bottom. You'd short that out, and then you'd get 500 milliamp charge rate. But I was kind of doing a bunch of revisions. I was like, ah, you know, let's revise this as well. As while we're at it, let's add a switch instead, because I made all the components of 6 or 3 instead of a 805. I tucked them all a little bit to the right, and then I actually had enough space to add a slide switch. So the slide switch, you know, uses with any of our different batteries, do watch out for the polarity. I had polarity markers right next to the connector. But you can switch from low 100 milliamps to high 500 milliamps charge rate. So if you're having a little tiny little batteries, go with 100. If your battery is over 500 milliamp hours, you can switch over to the charge rate to 5. And you'll charge up in an hour or less. It'll be much faster. So I thought this was a nice little update. So pick up a micro-lipo. It's a great way to get your batteries charged up. Next up. Next up. If it's a QT-ification, still going through a lot of our old boards that have I-squared C and making them STEMI QT-compatible so people can use them without needing to do soldering. So this is the SI-5351. This is a really cool SILabs chip that's a clock generator. We have a nice precision 25 megahertz crystal on there. And it generates three outputs. I think it's 8 kilohertz to 116 megahertz output. So good for if you just need like, I need like a 10 megahertz reference clock or you want to clock something, or a lot of people actually use it for RF projects. If you need a reference square wave, this will get it to you again. It's not a sine wave, it's a square wave. And we're still going to stock the old version, which is just a little bit wider in case you want three SMA outputs because this has three output pins. And each one gives you a different signal. So you can see zero, ground, one, ground, two. You can control it over I-squared C. We have a library in Arduino and we have a library in CircuitPython or Python. And yeah, I think it'll show really fast the two versions just because it's a little zoom back out. OK, can go to the overhead. So this is the new version. But again, we're going to still stock the old version. So the new version, it's much more compact and you've got the STEMI QT ports on the side. You can still connect one RP or SMA or RP SMA connector. Use the edge launch. You just solder it on. The pads line up actually perfectly. So you can just solder right onto them. So here you go. And you have one output. And that's actually what most people want. If you want to have SMA connectors, edge launch connectors for all three outputs, you should keep with the old version, which looked like this and had the three outputs at the top and then also mimic down here. So there's two mechanical layouts. I think people have use for both. But for a lot of people, they really only need one output. So this is nice connect to I-squared C and you get your outputs here, three of them on a breadboard or one of them with a edge launch connector. But both use the same code. Both use the same crystals, chips, and everything to their cross-compatible. Good OK. And the star of the show tonight besides you, Lady Aida, our entire team and staff at Aida for our community, our customers, everybody is hanging out here in the chat. And everybody who helps make this thing go is... Spiffy Lash. No, it's the SPI flash breakout. So last week or the week before we put in the Q-Spy flash chips, and those were great for three volt microcontrollers and boards that especially wanted to use quad SPI flash control. However, there's still a lot of people who are using five volt microcontrollers. They want that level shifting. And in that case, I recommend this board, which will give you an SPI flash chip. In this case, it's a W25Q16. That's a 16 megabit, 2 megabyte flash chip. That's the thing on the right. A 40, 50 logic level shifter and a three volt regulator. So what is this used for? Well, if you're doing a lot of data logging or you want to do data storage, we recommend a microSD breakout board. We sell those and they're also level shifted. And what's nice about that is it's got a fat file system. You can take out the SD card, punch your computer, and move files around, rename files. But once in a while, you don't need that much storage. You want something a lot lower cost and a lot less power and a lot less complexity. And that's where SPI flash is going to do the job. So it's not ware-leveled, but you have 100,000 writes. It's not organized in any format unless you want to. So if you want to format with little FS, you absolutely can. You want to use fat, go ahead. You want to treat it as one big, flat memory file. Totally cool. You can write that on the back. Do whatever you want. Yeah, put a little space on the back because you can write stuff. But once in a while, we have projects where it's like you can data log to it. It's nice because it's mechanically stable. If once you start on to the board, there's a risk of the microSD card coming loose. You also don't have to deal with corruption because, again, it's one flat file system. We have Arduino libraries for it. It's kind of a well-known chip style. Also, if you have existing older projects that used DIP SPI flash, these chips used to come in DIP format. And they don't anymore. And you're like, OK, I have to read. I want to fit something in place. This will do the job because they don't make 5-volt compatible SPI flash anymore. But this basically is the equivalent of a 5-volt SPI flash chip that's breadboard friendly. So I think it's still very useful if you don't need a ton of memory, which would be an SD card. You don't need a tiny amount of memory, which would be an iSquad CEPROM. These chips, 2 to 16 megabytes of storage. And then format it how you like. And again, a universally understood chip of almost every microcontroller board understands how to talk to SPI flash.