 It's time for the new, new, new. All right, so first up, we have a revision. We do. We're gonna see a lot of revisions in the coming months because if I can't get parts, I have to revise the board and sometimes I can do a little bit more revision because I'm in there, might as well fix a couple other things. So this is the USB Ultimate GPS, sorry, USB Ultimate GPS, a lot of TLA's in there. This is a USB friendly version of our Ultimate GPS board, a very popular GNS, which allows you to get data from the sky to get the exact time and also your exact location, handy for all sorts of purposes. This one has both the built-in antenna and also you can connect an external antenna so you can use it indoors, have the antenna outside. So this revision, what we did is we changed the CP 2104 chip for a CP 2102N. Shouldn't affect anything, the driver's the same, functionality's the same. And while we were at it, we also changed the micro-B to a USB-C. Why not? Also changed a couple parts to 06 or 3 instead of 0805, but otherwise the layout's the same, the shape's the same, functionality's identical. You'll just want a USB-C cable. We're kind of moving stuff to USB-C because that's the future or it's the present and the micro-USB is in the past. Okay, next up. Next up, this is a slightly bigger revision. This is the Feather ESP32-S2 with BME 280 sensor. So this was very popular and then after I released it, I realized that I had made a decision with the iSquared-C pull-up resistors that ended up causing higher power draw during deep sleep mode if you were using sensors on the QT port. And so I was like, well, I should revise this and I've also learned a little bit more about low power stuff. So instead of a transistor to switch on and off the power to the QT port, I've actually just thrown on another LDO. So there's two low dropout regulators, one for the Neopixel and iSquared-C, one for the main board. And that means you can easily cut power to the Neopixel and iSquared-C. So even if you have stuff plugged into the QT port, you'll be able to get that 70 microamp low power draw in deep sleep. And we're also going to have the version without the BME 280 released into the store soon but we wanted to start with this version. So just showing a little quick demo because I don't think I showed this demo before. This was set up for the Tudor loop. Hold on. I gotta get my inclinometer so I can get this nice and straight. So this is just showing that here I've got the temperature, humidity and pressure sensor. I also got a battery monitor. Oh, there's no battery installed. So that's why it's like there's no battery but if the battery was installed, find one, hold on, one moment. One second, let me just want to reset this completely. Okay, so now the battery voltage is more correct. So, and you can see it's running off a battery. So there's a lipo monitor which gives you percentage and voltage. It's a nice little iSquared-C monitor. The ESP32-S2 is a native USB. Version of the ESP32. It's a single core, 10 silica, 240 megahertz, Wi-Fi, no Bluetooth support at all in it. The S3 has BLE and we'll come out with that later. However, it does have four megabytes of flash and two megabytes of PSRAM which is super handy if you need large buffers. So the big change really was just again that little LDO over here just got updated so it can be lower power in low power mode. So the guide will be updated with a new schematic but otherwise it's very functionally similar to the polarity of how to turn on and off the power for the QT port did change. We're gonna have a little bit of chunk of code that no matter which version you have it'll turn it on or off as desired. So that's it, that's the update to the S2. Next up. Next up we have a cute kind of round panel mount. 3.5 millimeter stereo adapter. We had a smaller one. We actually got sent these by accident but they were so cute. We're like, we'll just put them in the store. These are really easy to mount if you don't want to cut a square hole or you want. You have a little rough edges. It's a very large flanged connector. It hides any burrs in the hole quite nicely and so we like these for panel mounting because even somebody with just a simple hole saw can cut it into almost any material. Okay, and then the starters show tonight besides you, Lady, our team, our customers, our community and the food staff that's running things behind the scenes tonight is? This is the Lipo BFF mostly because I couldn't come up with a better name and time. So this is sort of like a shield or a wing or a hat for cutie pies. So we wanted to make a couple add-ons. One common add-on that people wanted was the ability to, especially for the Wi-Fi boards to have a battery plug-in and have the battery charge. We didn't have enough space on the cutie pie to add charging circuitry or a LiPo connector but this little BFF solders onto the back and it kind of gives you a lot of functionality. So there's the battery port, of course. You can use any 200 milliamp hour battery or larger. There's an on-off switch. There's an on-off switch. So if you're portable, you don't have to unplug the battery to turn it on or off. There is, the voltage from the battery is then dioded back into the five volt pin because there isn't like a separate battery in on the cutie pie or the shell that it's based off of. And there's a voltage divider on A2 which you can cut this little jumper if you want to cut the voltage divider. And the voltage divider lets you monitor the voltage on the five volt pin, not the battery, the five volt pin, which actually has a bit of a side effect that it lets you determine roughly whether the board is being charged or is running off of the battery because if the voltage on the five volt pin is above about 4.2 volts, it's the five volt power coming in from USB. If it's below 4.2 volts, it's most likely running off of the LiPo battery. So I've got the little demo, although I don't know if I might have reprogrammed this board by accident. Oh yeah. Yeah. Well. But we have the video, so show the video. Yeah, let's do the video. So you can see turn it off, turn it on, it's running off of LiPo, plug it in, it knows it's running off of USB, unplug USB, it knows it's running off of LiPo again. Okay, that's smart. Yeah, so I got the demo down to six seconds and I was messing with it. Is your product.