 Okay. 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. Coming soon. Okay. Speaking of the ESP32C6, we have an ESP32C6 feather coming soon. A couple of little things I might want to change around it, but it's pretty much good to go. So if you want to pick up this board that will be ready to use with matter, sign up. We'll take sign ups. I don't know exactly what's going to be in the shop when it's ready, but we'll sign up and it'll also let me know how many to manufacture for that first one. Excellent. Okay. We've got from Electmix, oh man, I forgot their name. We have the Microbit Retro Arcade. This is for your Microbit V2, which has the NRF52 series. Does not work with the original. Sorry, Electfreaks. Thank you. Not Electmix. Electfreaks Retro Program Aircade with the NRF52 on the V2 Microbit, the new version. You can run Maycode Arcade on it when we love Maycode Arcade. The only thing is that a Microbit does not have a display, it doesn't have enough buttons to do arcade games. This is a beautifully designed little shield, even it got a battery pack, so it's nice and safe, doesn't use rechargeable batteries. You plug the Microbit into the top and you get your 180 x 160 color display. You get six buttons. You get JackDac, which is their plug and play system for adding sensors. It's got this nice curved round, hand-holdable thing. The alligator clips are duplicated on the bottom, so you can quickly add sensors. I don't know, I thought it was a really cute design, but yeah, a lot of people hold back a bit V2s, but I want to say it again, you need the V2 will not work with the V1. The V1 is too slow to run Maycode Arcade. Next up. Okay. Next up, we've got the Vivid Unit in, this is from UU Gear. We stock a bunch of their Raspberry Pi stuff. This is not Raspberry Pi based. It's actually a RockChip micro-computer on the back, but it does have a Pi-compatible-ish pin out. So let's look at the back. This is jam-packed. And by the way, I'm going to forget some of the things that are on this board. It's got the RockChip 3399 core processor. It's got a built-in speaker. It's got two USB three ports. It's got headphone out. It's got speaker. It's got SSD, M2 NVMe built in, so you don't need a separate NVMe thing. HDMI, camera connector, looks like analog input, Wi-Fi and Bluetooth, onboard microphone, onboard RTC battery connector, your gigantic power supply, look at that huge inductor in there. So there's the power supply, Ethernet, and the 2x20 connector, and then of course on the front, beautiful, I think it's 800 by 480 color pixel display. So I think this is, you know, it's really cool. What's neat is you can tell it's a tablet display that they've kind of recycled, but like it's cool. So this is just it showing, I mean it's going to be tough to see because it's a TFT, but it's a full capacitive touchscreen display, so you can like open up applications, you can open it. It's a speedy operating system. Yeah, it's very speedy. I'll say, you know, I don't think I set up Wi-Fi on this yet, but it's got, you know, all this stuff built in. So it's kind of like, I don't want to say it's like a Raspberry Pi, but it's the same, similar kind of idea of a micro computer, but it's got a display ready to go, so you can like easily mount this or use it with projects and running Linux. So of course you can install Python on it, you can run Python on hardware. You can communicate GPIO, you can get to iSquared C sensors, you can do quite a bit. It's like a powerful all-in-one micro computer basically that runs Linux. So I think it's interesting, it's definitely going to be more expensive than just a Raspberry Pi because it's got all that stuff built in, but like, you know, you've got a capacitive touch display and all the Ethernet and the Wi-Fi and the USB and the built-in speakers and the built-in NVMe, I think if you added up what it would cost to put this all together on something like a Pi, it would be more expensive. So if you are using all that stuff, this is good to go, and I like that it like boots immediately, you don't have to like burn an SD card or anything. It's got onboard memory, I guess, to be honest, I don't know how much. Look at the specs because I don't have it memorized. Yeah, it's in the shop, we have a couple. If people like it, we'll stock more. Next up, this is an update to the MHP 30s, MHP 50, which is a hot plate that you can use to do rework or reheating of small electronic boards. I'll say this came in today, I didn't get to grab one, otherwise I would show it off live. If you remember the MHP 30, that's the reheat plate that I've been using. It's three centimeters by three centimeters, this is five by five, so it's like twice as much. Also, it can use DC or USB PD power. It's 100 watts over USB, 150 watts max over DC power. So it heats up very quickly, but you do need to get an external laptop-ish USB PD power supply. Also, the OLED has been updated to use a color TFT. I think I'm going to definitely pick one up when we go by the shop tomorrow because if you have a, I've had a larger board, like a feather board, I've had to kind of shove it around a little bit to make it fit on the MHP 30, but the 50 is basically the same price and bigger, but you need a better power supply. That's the thing. If you're using DC power, you're going to need a 24 volt power supply that can do five plus amps. And if you're using USB PD, you need a laptop power supply that can do 100 watts. All right, next up. Next up, we have an RJ12 panel mount extension cable. This looks like Ethernet, but it's not. It's RJ12, also sometimes called RJ11, if it only has the four cables. So this is for telephony projects. So if you're using telephone cable, which is a six contact cable, RJ11, RJ12, this will definitely work well for you because you can panel mount it. What I like about these round panel mount cables is you don't have to kind of square hole or like a weird oval hole and have drills. You just cut one 30 millimeter round hole and up to, I think, a quarter inch or half inch material. You screw the nut off the back. There is this you can see at the bottom. There's a there's a lug nut, whatever it's a protection nut. Put the cable to the hole. Put the nut on the back, screw it in and your golden and the lip covers up any like imperfections in the hole, too. So this is kind of my favorite way of making panel mount connectors. So if you're using telephony cables, this is the way to go. All right, I'm getting close in the story of the show. Not yet, right close. OK, the ADG728. This is an iSquad C1 to 8 analog switch. So I think we had an analog switch a while ago that was like one to two. You could like have the switch go like normally open, normally close, like a relay. This is kind of an interesting chip from analog devices, but it's like, you know, it's hard to get iSquad C control by analog switches. And so I thought this was worth stocking. So if you look at the front at the top, there's eight pins labeled S1 through S8. And at the bottom, at the bottom right, there's a pin labeled D. So the D pin can be connected to any of the S1 through S8 pins. But here's the thing, it's not like a multiplexer selector. You can connect multiple pins to the D pin. So it's like a matrix. You can actually connect like S8 to S3 to D or S1 through S4 to D or all pins connect together. So you can actually use it for merging signals, not just for selecting a signal. Although I think a lot of people use it for selecting a signal. You write the switches you want on via iSquad C. It's break before it makes. You don't have to worry about things accidentally getting connected if you set all the pins at once. You either just write the 8-bit value and that whatever is a 1, it gets connected, whatever is a 0, it's not. There's two address pins to change the address and a reset if you want to like immediately set all the pins to be open. So, you know, what would this be used for? This isn't good for anything over 5 volts because it has to be, the analog signal has to be less than, has to be greater than ground and less than the V in. So it's good for like up to three or five volt signals. So they're definitely good for analog, so analog audio signals, because those are going to be like less than a volt. If you want to move around audio signals, this is definitely going to be the way to go. You don't get any clicking like you would with a relay. And of course it's instantaneous. Also could be used for some video signals, could be used for signals into a DAC. I've seen these kinds of switches used for the inputs into op-amps, if you want to move signals around. So this is very, there's a lot of pins available, 8 to 1, but basically this is kind of what was available. The only other thing we had was a one-way switch. This is a 1 to 8 switch. All right, in the storage switch, I have to say to you lady, our team, our customers, everybody who makes this thing go is, the ADG729, which is the sister of the ADG728, very similar, but a little bit different. So the ADG728 had 1 to 8 switch. This has 1 to 4 switch twice. So two switches, so two sets of switches. So you see at the top, there's 1A through 4A, and then 1B through 4B. And at the bottom right, there is the DA and DB pin. So you can select any of the ACE pins to collect to the DA pin and any of the B pins, any of the 4B pins to the DB pin. So basically it's good for stereo analog signal switching. So good for audio, especially if you have, you know, stereo signals and you want to move them around. It doesn't be used for video or like, you know, sensor reading or whatever. And then don't forget it's not a selector. You can connect multiple pins to the switch. Like each one has an individual switch so you can have all the switches on. And that means there's four pins connected to the DA or DB pin. So that'd be good if you wanted to merge signals together, which you can do with this analog switch. And then of course it's bi-directional too. It's not like one way. It's not like, oh, the signal only goes from DA to 4B or whatever or 4A. It's bi-directional, it's full analog. Like it looks like a transparent 2.5 ohm connection between the switched pins and the DA or the DB pin. So also it's controllable over I squared C. So like the 728, you write 8 bit value and that tells it which switches you want to have on. You can have all them on, all them on, some of them on. And then two address pins. And the only thing it's missing compared to the 728 is the reset pin. There's no reset pin because instead you have, you know, the two DA and DB pins. So that's what got dropped in order to have the dual one to four switch. So both are very similar and they use very similar code, but one is a dual one to four and one is a single one to eight analog switch. Both useful.