 Okay, first up. Okay, so our new products this week, they're coming soon, but we'll have them shortly. Some stuff is held up in an airport. But this is fun. So we have this RP2040 trinket, trinket, and we designed it to be the same size and shape as most of our Stem-AQ-T boards. And so you might be like, wow, what if I want to make a custom trinket? Because we made a rotary encoder trinket, and we made a key trinket, and we're going to make other trinkets. But if you're like, I want to make a sensor trinket, like you want something with a BME-280 and you want to plug into your computer and have data come out, well, in that case, you would want to attach it, the sensor on, and then you can just use your, this is a long cable, but you can get the little shorty version of the cable, you put the cable like this, and now you've got what I like to call a no solder solution, because you just bolted it on with this little bolt kit, whatever sensor device you like, onto the Stem-AQ-T friendly trinket, and you plug this into USB, and then you write code for this to spit data out over USB, and you've got your little USB connected sensor. So it solves a little bit of the problem, like I call this the fidgets issue, where it's like, you can get sensor data into my controller, but sometimes you just want it into a computer, and how's the easiest way to do it. I'll give you some bolts. Basically, it's a little stacky kit, and of course you can, the way it's designed is you can stack multiple ones, because it's got like the standoff, and the screws, and the hex nuts. So this is just the kit, but what it's designed for, and you can use it for other stuff too, but what it's designed for is to stack sensors on top of your RP2040 trinket to make a custom trinket. Okay, next up. Next up, we've got an OLED. People love OLEDs. We love OLEDs. We've been carrying OLEDs for a very long time, some of our first products for OLEDs. This is a 128 by 128 monochrome OLED, using the SH1107 chipset. It connects over I2C over SPI, because it does I2C, and a lot of people are happy to use I2C. We put 7QT sensors, connectors on it, and so you see it running the demo connected to this STEMIQT, and this is the Arduino code, but it's also supported in Arduino. You see a little bit of flickering, of course, that's not visible. That's always webcam and internet stuff, but our community's really smart, but sometimes there's new folks who come along. I like to say it. And they're like, yeah, no, we should always say it. We should always say it. It actually doesn't flicker with real eyeballs. And I think people use that too now, with like, because they're filming TV stuff. Yeah, they see stuff on TV. So yes, we've got support for it. It's about 1.1 inch diagonal. This is the board on it, and you can use it with a breadboard or just plug and play. 128 by 128, we don't have, most OLEDs are 120 by 32 or 120 by 64, so we like this nice big square shape. It could make for a nice watch, for example, could be as fun. Okay, and the stars of the show tonight, lady, besides you, our community, our team, our customers, and everybody's hanging out with us tonight is we've got a couple of new feathers. New feathers. Okay, so this is twinsy feathers. There's two feathers, and they look so similar, so I'm going to talk about both of them at the same time, because they're basically the same design, but there's like one little thing different. So this is the ESP32 S2 feather. It's a little bit kind of a year in the making. It took me a little bit of time to get this design out, but I really wanted to wait until we could get the ESP32 S2 modules, the mini modules, as shown here, with PS RAM in them. So these, the two feathers here have four megabytes of flash memory and two megabytes of PS RAM. It's RAM that you can use to buffer data. It's great for circuit pythons, great for Arduino because the ESP32 S2 chip just thinks it has two megabytes of RAM, so you can read massive amounts of data or get camera information and parse it, or you can buffer multiple displays all in RAM. This feather, of course, it features the ESP32 S2 with native USB, which we love because it's a Wi-Fi chip set, like the ESP32, but it has native USB so you can have it act like a keyboard or a mouse or a disk drive and also program it over USB and do debugging over USB. And with the mini modules, it makes for an adorable feather. You can see everything fits quite nicely, and it's exactly feather-sized. And we had a little bit of space in the middle. So first up, if you want to add sensors and more, there's a STEMA QT port in the middle sticking up. So you can see that OLED that we also released this week pointing, plugged into the center. You can connect sensors, OLEDs, displays, whatever you like. And also there's a version of this feather that has a built-in, here you can see in the center, a BME 280 sensor that's a barometric pressure, temperature, and humidity sensor. We even have a demo. If you want, you can basically go into deep sleep in between reads to keep the board nice and cool, wake up, get a sensor, reading from the sensor, connect to Wi-Fi, send the data to Adafruit I.O. or wherever you want to send on the internet, and then power down. So that would make it perfect for environmental ambient sensing, like environmental sensing without having to plug in any extra hardware at all. But it's more expensive. So that's why we have two versions. One is the less expensive, no BME 280, and one is the more expensive with BME 280. So I thought I would show off some of the things on the overhead. So of course it has battery support. So let's go to the overhead and I'll show this. OK, so we've got here, this is the one that has the BME 280 sensor. So of course it's got battery support. And we tried to make this low power friendly. So for example, there's a transistor down here that you can use to turn off power to the I2C port and the onboard sensor. And that way, when you go into deep sleep mode, if there's any sensors plugged in, you don't have that quiescent current. So you get down to, I think, like 40 or 50 microamps of current while in sleep mode. There's also a battery monitor here. This is a very low power battery monitor chip over I2C that will give you the battery voltage, but also the percentage. It actually does like tracking of the voltage. So it does like a smart analysis of what the battery capacity is or state of charge. This demo is showing reading the temperature, humidity, and barometric pressure off of the BME 280 center in the middle there. It's got, you know, the LiPo battery, battery charging, the boot and reset button so you can go into boot loader mode. I think, yeah, here's a reset button. So you can see here there's a little neopixel. This is trying to do the boot loader recognition. And it's like, I'm not going to computer. There's a red LED here. There's a charge LED, 600 milliamp regulator, the AP2112. When we get the, we're going to change over to the RT3080 when we can get those chips, but they're silicon shortage out. So for now, we're using the AP2112. And of course, the feather pinout you know and love. So I2C and SPI and UART and analog inputs and all the stuff you love about the feather format. And we tested it against all our feathers and it works wonderfully. So if you basically want a feather that's all in one IoT, low power friendly, Arduino friendly, circuit python friendly, and you know, of course, STEMIQT plugs in nicely in the center. So I ever wanted and I like that there's a vertical stem plug into. Yeah, well we were, we bought those vertical plugs and Fab was like, when are we going to use them? I'm like, soon. But I just really loved the little mini version of the ESP32 S2 module because it means we had that extra space in the center for sensor, you know, optional sensor and STEMIQT. So check this out. We are going to be making tons of these. They're going to be really popular for sure. And we have a couple of variants also of the ESP32 S2 feather. But hiding the PS RAM is key, especially for a circuit python. You really need that extra two megabytes to be able to read data from the internet, parse it and do graphic stuff if you need to as well. So I think it's worth the wait. Test it.