 Let's see. You can sing it. Oh, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no. Well, the outgoing guys. The outgoing we're going to have in the column. Okay, sorry. So first up. Okay, first up. We've got a bunch of little Q-Spy breakout boards. So, you know, when I'm working on dev boards or my controller or circuit Python or even actually little embedded Linux boards, Q-Spy flash memory is often used when you want like two to 16 megabytes of data. These chips only come in SOIC and I'm always like, I just want to like wire it up. And like, I don't want to have to hot air, you know, the chips on and off. Also, there's some projects that used to use the dip versions of these chips, which have been discontinued. So I thought I'd make a little breakout, you know, just for each one of these chips, the 16, which is 816 megabit, two megabyte. We also have the 64, which is 64 megabit, 8 megabyte. And then finally the 128 megabit, which is 16 megabyte. So these are all, it's the same. Oh, wait, wait, wait. Oh. So I keep you back up, back it up. I meant to do the... Back it up. Back it up. I meant to do that, I swear. Okay, that's fine. All right, so stop it. So these are the three. There's three. There's 16. Yeah, sorry. Yeah. 16, 64 and 128 megabit. Okay, that's where I'm going to start. Each one of these is, that's fine. It's the 24. It's the 24Q, you know, XXX, JV, JVI SSQ. Basically it's the quad version, the QSPI version of these chips. You can use it in non-quad, so single-channel or dual-channel SPI. However, just because I tried this and then realized it didn't work, the quad-enable bit is permanently set. So first off, you don't have to set it, yay, because most people don't want to have to set it. They also can't disable it, so that hold and white protect pins that would normally be there for SPI mode don't function. It's really meant for quad-SPI only, although you can use it in plain SPI mode. It's also only three-volt. It's a basic little breakout, but for a couple bucks, basically I was just tired of soldering these two breakout boards. So for people who want to use these in circuit Python, for embed Linux, for MicroPython, or you can use our Arduino SPI Flash library to interface with these, and you can use them as a mass storage. They're just really inexpensive, and if you don't need a full SD card, you just need like two to 16 megabytes. These work really well, and they're very simple, and they're aligned now with the dip size. They're 0.3 inches, 0.1 inch spacing. So if you want to use them in a breadboard or in a board that has an H-dip socket, this will fit just fine. We give you some header as well. Okay, next up. Okay, next up, we've got ahead of ourselves. So if you're using STEMQT and who isn't nowadays, I mean it's like so hot, it's all the fashion. STEMQT and Qwik and all of the similar iSquared C pluggable devices, are really popular, they're chainable, they're super fun, but there is one thing which I always have to warn people about, which is that if you have something like a Metro Mini V2, or an Arduino, or any other older microcontroller system that has five volt power and five volt logic, you will want to do a iSquared C level shifting and power shifting to make sure that you don't blast five volts into your three volt sensor or device, like this HT20 actually happens to be five volt compatible, but if you're using a BME 280, or if you're using the ENS 160, or you're using any other sensor device, almost all chips that are on iSquared C are three volt logic only, and if you put five volts into them, you can damage them. So this logic level shifter is something, you can see the error as it takes five volts and it gives you a regulated output that has a 500 milliamp three volt regulator and a five volt to three volt logic level shifter. So you can take five volts from your UNO or from your old ST board or your PICBASIC or whatever, whatever you've got, that's five volts and it gives you a clean three volt output. It also gives you breakout boards for pins for five volts and three volt logic and power. So if you want to use this on a breadboard, it's also kind of like an adapter, but for eight of fruit boards, to be honest, all of our boards are three volt or five volt compatible, but there are a lot of other people making boards like the Spark Phone Quick, which is the originator of this standard and other companies, they may not make them five volt compatible and I just want to make sure people who are still using UNOs and there's a lot of them can safely take advantage of this plug and play system without causing damage to their sensor devices. Okay, the star of the show tonight besides you Lady at our community, our customers, our team and all of the gold-plated diamonds out there is more cowbell. Yay. I could have used a little more cowbell. That's right. We're about to kick off so many cowbells that it is cowbell, cowbell, cowbell. It's why we- You're gonna say- What? I gotta have more cowbell. Actually, you won't say that because you'll be- I need more cowbell. You're gonna be tired of cowbells. What's the first cowbell? Okay. So the first cowbell, I mean, I always start with a prototyping board because that's how I actually prototype the other cowbells. So especially for the Pico W, if you want to do IoT projects and you want to use our Stemma QT sensors or if you want to just easily reset your board, this is a little prototyping board. It's very inexpensive. It's designed to just be like a little throwaway. You can solder headers onto it, plug in your Pico and it gives you a prototyping area. I'll talk about and I'll point out all the prototyping area stuff. And then it also gives you a Stemma QT and a reset button. So it's kind of like a handy beginner getting your project started, but you don't need any, you don't need a lot of complicated extras on your board. So let's go to the overhead, because this one, I gotta explain how this works. So the Pico actually a lot of times people either have it with headers attached or they solder on headers. So that when you get the proto-cowbell, it does not come with headers. And the reason it doesn't come with headers is because you can configure it in so many different ways. You can plug in these skinny sockets. If you want it to be super slim, you can put in these stacking headers, which I recommend, or you could put in these socket headers. And like we don't wanna assume which one you want. Personally, I like the stacking the most because it means you can then plug it into a breadboard like so, and then you plug in the Pico on top. And you have a little bit of space over here. What does Christopher Walken say? I need more cowbells. All right, well, we'll keep going. So there's a plenty of space you can solder in components, you know, capacitors, connectors, whatever you need to. There's an edge mount reset button. So reset button is not built into the Raspberry Pi Pico, but it's very handy. So if you want to go into bootloader mode by holding down the boot select and resetting, or if you just wanna reset your board. So there's a little edge launch reset. So you don't have to unplug and re-plug your Pico to load circuit Python. And then on the other end, we've got a STEMI QT connector. So it's got a three volt power ground clock and data. And the clock and data are connected to pins IO four and five. That's because it's the default Philhauer Arduino core wire, I squared C interface. If you're using MicroPython or circuit Python, you'll just want to pass in four and five as the initializers for the I squared C connection. So all the grounds are the square, you know, white rectangular, because you know, there's a lot of ground pins. And then this is the ground pad. Every pin has a duplicate. So, you know, every though, like this is a, you know, IO 13 and there's, you know, this is what connects to the Pico. And then the pad next to it is you can jump or it. So every pin has like a little twin sister next to it. So you can jump her to it. And then the three volt line is the only one that has it's extended out. And this is all three volt because you'll probably need a lot of three volt power. And the rest of the pins are kind of like a little breadboard four row connects. And I think there's like 13 rows of four. You always cut the, you know, pads if you want to have them separated, but chances are you want to make multiple connections to each row. It's not a huge prototyping area, but it's designed to be, you know, skinny and fit underneath your Pico or Pico W for quick prototyping. And it's like only a couple of bucks. So, you know, you get it. I recommend again, the stacking headers. I think those are the kind of the most fun to play with because you can plug into a breadboard. But if you want to not have a breadboard involved, you know, you plug this in and it fits underneath compactly. Or if you want like a super skinny, like, you know, barely any space, but it's the most compact sandwich, the super skinny socket headers work as well. There's no such thing as skinny stacking headers. Unfortunately, this is, these are the three options that we've got. But this is, you know, I think it's got a nice silk screen with penguin. Oh, and one last thing. So the iSquared C also has a breakout here. These four pins are the iSquared C JST breakout. So clock data, three volt and ground. And that's for, in case you don't want to use IO4 and 5, you can connect to the iSquared C power and data and connect them to other pins. You shouldn't even have to use it for iSquared C. You can use it for just GPIO. Like there's no pull-ups. So even though it's designed for iSquared C usage, you don't have to do that. So this is our first cowbell. I got a fever and the only prescription is more cowbell. All right, and that's new products for the week.