 Hey, it's a Raspberry Pi. Yes, cases they're in and they're gothy. Okay, yeah. We know the photo was the white and red one, but you knew we weren't going to stock that. Black and clear one, because we were looking for a few Raspberry Pi five will not fit any other Raspberry Pi, only the Pi five as a built in fan using the new fan connector. That's fancy. It's got a little heat sink element, a passive one. I think if you pop out the fan, maybe you can use the active cooler, but it's a nice snap together case. It looks cool. It looks got a little rubber feet as well. And we, I think we even have some still in stock. Yeah, they're going to go fast. So, you know. Yeah, we'll like, we can't guarantee we'll have both the Pi fives in the case at the same time. So, I don't know. That's how it is. No one can guarantee that. Nobody can guarantee that. I do like the way we handle the Pi five sales because folks have told us that they have back orders, pre-orders from September from other places. They still haven't gotten yet, but they did get the ones they ordered from us. So, that's why we did it. Next up. Next up, a new edition of programming the Pico from Simon Monk's second edition. Now covers the Pico W, which is great. Simon Monk is a wonderful educator and writer, has written guides for us, has published multiple parts of the learning system. And we have lots of his kits and books. You can see some fantastic pages. We have a couple of previews of the book. You can also get it just about anywhere. We stock these types of books. Often folks are like, well, I don't really want to buy stuff from Amazon, but I do want this book. Maybe for maybe you'll stop. The authors. Yeah. That's how you get more books written. Okay, and next up. Next up, it's coming soon, but I'll probably be in stock for next week. But I thought a bunch of people might want to sign up for it. It's a Grove feather wing. So if you have a feather and you want to use Grove sensors from seed or other companies make sensors that are compatible, this board is very compact, but it has three analog Grove connectors, one UART and two I squared C, plus a STEM IQT. That's like, you know, for the fourth day of Christmas, why don't you give me a board with a STEM IQT and a Louisa button. So it's simple and expensive, but makes it mechanically easy to plug and play existing Grove sensors that you may have. Okay. It's coming soon. And the Starship Center slides you leaded our team, our customers, our community, and everyone who's making this thing go. All this year is the M.C.P. 3rd, 3421 18 bit analog digital converter with I squared C. This little chip from microchip is, it's a nice high precision analog digital converter. And I'm showing here, and you know, it was like, what is this? What are you seeing here? So this is a K type thermocouple wired directly up to the ADC. There's no op amp in bit in the middle. There's no special chip. It's just the analog digital converter reading 18 bit with the programmable gain that has a built in PGA, I think of eight time gain. And it can read a thermocouple and actually like get, you know, you can measure temperature from it and into the temperature conversion. We can see the ADC when you touch it with your hands heats up and you get up a hundred counts just from room temperature up to like finger temperature. So it's like 10, you know, every least significant bit is one tenth of a degree. It's fairly fast. You get like three or four samples per second when you're dealing with 18 bit sample rates. Like I said, it has built in gain. It's I squared C. So it's like easy to use with, you know, almost any microcontroller or microcomputer. It's got the terminal block built in already. So you can just wire something up. There's only one I squared C address, but you know, that's okay. You could always use it with a GPA of expander. It's not that fast anyways, where it's four samples per second at the most precise readings. It's good from 3.3 or five volts. Inside it's got a built in 2.048 volts, 1% voltage reference. So it's like a very precise voltage reference. So the signal that you get can be differential, but just note that both sides of the differential signal have to be less than two volts. So it's really good for like wheat stone bridges and thermocouples and strain gauges, stuff like that. Not good for a potentiometer where you want a full like zero to BCC or zero to 3.3 volt input. This is for a precision reading of differential signals that's what's gonna shine. And with that is new products. 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.