 Ticket noon, noon, noon, nooo, nooo, nooo, nooo, nooo, nooo, nooo, nooo, nooo, nooo, nooo, nooo, okay, first up got a little shortening adapter. We have stocked these in a couple different colors and designs for awhile for use with like the Raspberry Pi version 1 which used a large SD card size. This is basically like, this is actually designed for MacBooks to be honest. It's a half size SD card holder that has a little slot in the side for a micro SD. So this is different than the most adapters that come with your SD card or micro SD where it goes through the end and they're kind of long. This is shorter. It's designed for MacBooks, but there's still a lot of like, sometimes we'll see like 3D printers or like other maker devices that have a big chunky SD card sticking out the side and maybe you want it to be a little more flush. This one's basically half the width. So that's what you would use this for. Okay. Okay. Thank you. Next up, we've got the RCWL-1601 Sonar sensor. And if you look in the front of this, it says like trig echo ground, which is like, oh, go back. I'll tap you when it's done. This one, it says VCC trig echo ground. And that's what like the standard like HCO4 interfaces for ultrasonics. And then you'll see like above that, it says like RX and TX. So you could use it for UR and there's also SCL-SDA. And for a while I was like, oh man, like I wonder like, could it actually be used for I squared C? And it turns out that on the back, there's a little jumper. And yes, if you move the resistor from UR to I squared C or IIC, like this one, the onboard ship will go into I squared C mode. Now I'll say one thing about it. It's not like super happy I squared C. It absolutely does work. It doesn't like to share the I squared C bus with other devices or at least when I put OLED on the same bus, it kind of locked up the bus. But as long as I kept it as the only item on the I squared C bus, it definitely for work, for sure worked just fine. And you may be wondering like, well, what's the point of doing it if it's I squared C and you can't like really share it with other devices? Well, there's a lot of microcomputers and microcontrollers that may not have a fast enough GPIO to do the HCO4 type trigger. There might be ones that don't have hardware UR. Maybe it's okay that, you know, you only have one device on the I squared C bus. I still think this is quite useful. And also there's a lot of microcontrollers that have multiple I squared C buses. So if we go to the overhead, let me just auto focus this real fast. So here I've got a, I'm gonna lock the focus. This is a QDPI RP2040. So this and a lot of our other QDPIs have enough pins that they can have two I squared C ports. So the sonar sensor here is connected to power and ground and then the SDA SCL I squared C1 port. And then the OLED here is connected to the STEMI QT, which is the second I squared C port. And so you can see here, I've got a little demo going on where as I move my, hold on, I gotta like move my hand up and down. It's detecting the distance. And this demo works great. So, you know, it definitely works with I squared C is a very simple interface. You can't change the address. It's a fixed address, but you know, again, there's gonna be those weirdo cases where you're like, I really just want a low cost sonar sensor. And I don't have anything else on the I squared C bus that could possibly confuse it. You know, it's very inexpensive. It's only a couple of bucks to add a sonar sensor. And it works with the classic I squared C. All right, next up. Okay, next up, we've updated the QDPI ESP32 Pico, which uses the ESP32 Pico chip. It's got eight megabytes of flash and two megabytes of PSRAM. It's adorable. It's an ESP32. So if you stop here and you look, something's different. That's right. The USB serial chip has changed. It was the CP 2102N, but wouldn't you know it? There's a chip shortage. We can't get a lot of those chips. And so we've swapped it for the CH9102F. So this is a revision, but basically as long as you install the driver for the CH9102F, you're good to go. It works exactly the same. There's a drop-in replacement. We tested it out with Linux, with a Mac, using the latest Mac OS and M1, and with Windows, and it updates super fast, and it's super great. All right, and the star of the show tonight besides, you, Lady Aida, our team, our community, our customers, and everyone who keeps this thing going is? The new updated Feather ESP32 S3. Now you might be thinking, hey, wait, this sounds so familiar. Didn't you put this in the store like a month ago? Yes, we did have a Feather ESP32 S3 in the store. The one that we put in a few weeks ago was the one with eight megabytes of flash and zero megabytes of PS RAM. And this one, if you stop and look at the back here, ooh, this one has four megabytes of flash and two megabytes of PS RAM. So basically half as much flash, but a ton more SRAM, or PS RAM that you can access. So this Feather, basically this version of the memory configuration wasn't available until now. We recently just got this shipment in of modules so we could make this version of the Feather. This Feather's gonna be a lot better for use with Circuit Python, which uses RAM to store code in, or any Arduino project or ESPIDF project where you want a really big buffer of memory. You know, let's say you're downloading an MP3 from the internet or an image and you're doing camera stuff and you want to buffer an entire frame in memory. It does have 512K of SRAM, but that SRAM goes very fast when you're using SSL and Wi-Fi. So that PS RAM can be really good. You wanna do emulation. You wanna do I2S audio buffering. You wanna, you know, have, you know, again, camera stuff. You want to do, you know, double buffered graphics using the S3TFT driver. The PS RAM version is where it's at. If you don't care too much about whether you have PS RAM or not, then, you know, the eight megabyte flash could give you more storage space, more flash space. So we have both available for the Feather. Otherwise, it's basically the same board as the Feather ESP32S3. You've got the module. You've got a boot button and a reset button. You got a STEMIQT port for connecting up our sensors, USB-C for data and power programming, native USB. The ESP32S3 is a dual-core 240 megahertz 10 silica processor. It's got Wi-Fi. It's got BLE. It's very fast. Battery charging built-in, battery monitoring built-in, Feather layout, you know, just compatible with all the Feathers you know and love. It's a great little Feather. And now it just has PS RAM. So, you know, especially for people who want to use Circuit Python, I recommend this one because Circuit Python, you know, you can load so much code into the PS RAM that you have available on this board. And that is new products this week. New, new, new, new, new, new, new, new, new, new, new.