 Okay. We've got a round display. Okay. So this big round display, we've actually, it's, and you're like, Hey, I think this sounds familiar. Yes, we had it as a coming soon. And now it is in stock. They've been have a little demo because I've been working on eyeballs code with it. And you can go. Okay, so this is a gigantic. Yeah. So we've got the gigantic eyeball code ported to it. It's a little flickery because this is using IDF for not IDF five. It's also through camera through camera. So there's like three cameras involved. But the the colors is really good looking. Yeah, the colors really good. This is actually pixel double two, by the way. This is 360 by 360 pixel doubled up. We're going to try to port this code to IDF five. So it looks even better. But in circuit Python, it works. And our do we know it works 720 by 720 pixels massive display. I'm also getting a capacitive touch one. It's going to be more expensive. So I think if you just need a display, you don't need that touch capability. This is the biggest round display we could find we went out we use our eyes and we found this. Okay. Okay, we also have a bunch of Raspberry Pi accessories. The active cooler for the PI five is a board that plugs in it like attaches to the PI five you can see like the five the five included. This is the thing that's not. It's like the heat sink plus the fan. It plugs in, you will probably need to use a lifter for the two by 20 connector if you want to connect GPIO on top. But if you're doing like a lot of machine learning stuff or like high intensity CPU things with your Raspberry Pi five. This will help get you the most frequencies, the highest computational capability because otherwise once the Raspberry Pi heats the it'll start throttling itself so that it doesn't keep using as much CPU so like it'll get slower and slower the hotter gets with this you get all that computational power. Okay, and then there's cables. This is the PI display cable so just this is like a demonstration to show so we have both the display cable and the camera cable and they are not the same. Yes, I know it's confusing. Look at these nearly identical things they look identical but they're not about this about this about this they're a little bit different, but this is the display cable showing. So if you have a Raspberry Pi four display or you have any other Raspberry Pi cameras, you're going to be an adapter cable because the the new connectors are four lane and they're much, you know to make space for the PCI connector. They made these point five millimeter pitch you see this like $1 connector and then you know you can use your all your old accessories with the PI five. So yeah, and then the star of the show besides you, Lady Eater, our community, our customers and everybody out there who's being good to one another is the LM66200. This is ideal. It's actually a big breakup because I'm going to be using this chip in a design, you know, basically if you have two power supplies on your board, say a LiPoly battery or USB or look at, you know, to DC power jack and USB, whatever. And you want to have your electronics use whichever is like available so sometimes the batteries plugged in use that sometimes a DC plug is powered in or USB or whatever to decide which power supply to use. You can use two diodes and you pick them up it's like a diode or connection, and that will give you whichever is highest that's the current and the voltage supplier. But you have to deal with the dropout of that diode which can be like half a volt which can, you know, like that's a lot of power that you might be losing, especially for low power situations also the diodes are kind of large. Also, you don't have an enable switch which you can do with a transistor. You know, and then maybe you want to know which one is the one that's activated. Because this is kind of like combines about seven transistor diode components together into one, you can connect your two to five volt inputs to the V ins there's one and two, and then ground, and the V out will be whichever one is higher. And there's also a enable pin and you pull that high, by default it's pulled low to turn on, you pull it high and it will disable the voltage and then there's also a status pin they'll tell you which of the two is like the one that's activated. So it's like a very smart version of ideal diodes is an inexpensive small board, but probably very handy I think you do about two and a half yet two and a half amperes out. Just nice also more than most diodes and only 40 milli ohm RDS on so negligible voltage drops so great for low power usage, or just power supplies where you want don't anticipate a bunch of current through a couple of NBR 120s. Yeah.