 No, no, no, no, no, no, no, no, no, no, no, no, no, no. Basically have a bunch of new products, but there are a bunch of different types. So let's start with these first, and then we'll go on to the stars into show. People love the NVME under hat, I don't remember the exact name, from Pemoroni. A lot of people made NVME PCIe adapters to the Pi 5. I'm glad we didn't have to do it. So Pemoroni did it, we stocked them, we just put some in stock actually today. And they also have extra cables, if you broke your cable, or if you want extra cables, or if you want extra long cable, there's like the standard shorty cable, and then there's the extra longer cable. So you can have like, if you want it in an enclosure, and then you need a little bit more spacing, you can pick up one of these beautiful S shaped, you know, impedance matched cables for your NVME hat. And the stars of the ship, besides you, Lady, the team, or customers, our community is a bunch of these, the bells. Camera bells, okay. So Pi Cal Bells to add camera and SD cards. So there's like five different products, but I'm just going to talk about like one. Yeah, let me have the example. We'll show the example. Yeah, so we'll do that. We'll do that. We'll start with this, and then we'll do this, and then we'll do this. So we'll start with this. So actually, can you go to here? Cause it's the top down. I'll start with this. Yeah, okay. So this is a Pi Cal Bell, which means it plugs in next to or on top of a Raspberry Pi Pico or Pico W and lets you connect a parallel, otherwise known as a DVP camera. These are digital video cameras, kind of a parallel interface. So you need to take advantage of the PIO interface on the Raspberry Pi Pico, but it works quite well. And it can quickly grab all the data from the camera and store it either to an SD card or keep it in memory. So in the center there is the camera module and there's like a standard pinout. It's like a 24 pin pinout. So there's different camera modules and different lenses. They all have the OV5640 camera sensor, which I find to be like the nicest one. Some people like the 2640. Low resolution, I found not as high quality. I really like the 5640. And then I also have on the left, there's a little shutter button, pin 22, you can press it to take a photo or whatever, it's just like an extra button. A static UT port for adding sensors or whatever. In the middle is that camera sensor, you see the lens. Above it is a reset button, so you can reset the board. The left, kind of in the middle there is all of the circuitry for supporting the camera. And on the right is a micro SD socket, so you can take images and then save them so you can make it a little mini camera. The only thing is there's no preview screen. If you want a preview screen, you'd wire it up like this. You know, we'll show the pinouts. And then you can have live stream video image from the camera come to the TFT, show your preview. And then you can also take photos and save them, like I said, to the micro SD card. So these come in a variety of different lenses and each lens has like its pros and cons. So the first lens is like the biggest. It's at the 160 degrees. So this is very, very wide angle. So if you see the photo, like the figure in the center is very small and you see like a very wide image, like a 160 degree image of the background, but it's kind of distorted. Like you see things are sort of at the edges, they're curved because it's got a distorting lens because it's such a, you know, it's like a fisheye lens. We also have, this is 120 degrees. So this is also a little bit wide, but it's a non distorting. So if you look at the image, it is wide, but you see the lines are like mostly straight. It's a low distortion lens, but it doesn't have autofocus. We also have a 120 lens that does have some distortion. It's a little bit less expensive. You kind of, you know, a little bit more. As you see this, it's kind of, it's got a little bit of a wide angle, like zoom in effect as well. There's also a 120 degree with autofocus. So that metal body around the lens is the autofocus circuitry. It uses a lot of power because there's a little motor coil inside that can move the lens up and down and you have to load, you know, this firmware into the camera over I squared C takes like a second or two. And then you can tell it to do autofocus and it kind of works pretty well. And this is what that camera looks like. You know, it's a slightly different image. And then finally, we have a 72 degree, which is a non fisheye. Like that's kind of, when you think of one to one camera images, this is it. And it also has the autofocus. You can see like everything is exactly as you would imagine it is. You can see it with your eye. It's like non distorted at all. You will use the narrow lens if you're just wanting to take everyday photos of people and things. The wide angle lenses are for like if you're doing like some time lapses or you want to take a photo of like a backyard and you want to get the entire backyard not just a narrow part of it. Cause again, it's not motorized. There's no pan tilt zoom. And so you can't move back and forth. So you just have like a really wide lens. And then even though it's distorted, you know, a lot of people when they make like a security camera or a monitoring or a time lapse camera, they'll use a wide angle lens. That said, the code is the same for all of them. It's just like the lens is a little bit different. And so we've got code for the Pico and Pico W. These aren't in the store yet. So you can sign up. I have to finish the tester. It'll be in next week. It's only for second Python right now. I don't believe we have code in Arduino for the camera. Although I think some people have written some SDK C++ code for the Pico to interface with these camera modules. And like I said, the camera module is kind of generic. You sort of set it up. You send all these registers and then it just kind of streams data out in either raw RGB mode or you can put it into JPEG mode, which is great for snapping a photo. It's compressed. And then you can save it directly to the SD card. All right. And with that, with all these cameras this week, that is new product. Thank you. No, no, no, no, no, no, no, no, no, no, no, no, no, no.