 New, new, new, new, new, new, new, new, new, new, new. New, new, new. Okay, these are coming soon, screens. Yes. So all these cool screens that we've been showing off, squares and rounds and high density and capacitive touch, people are like, when can I set up, when can I get them? Well, we're gonna have them in the shop. So we just wanted to get that ready since there's quite a few. So they're being photographed and there's little placeholders in the store. So if you wanna sign up, they'll go fast. And you'll get notified when we do get them in stock and then we'll of course have the driver board as well. Next up. Next up, we've got the tiny code reader. This is from Pete Warden. We have a guide that goes with it. Thankfully, he wrote it for the learning system. And this is a very simple sensor. I mean, simple, it's complicated, but it seems simple. It has an RP2040 on the back and a camera module on the front and then a JST, SH connector that can be used with quick board stemmer boards. And what it does is, if you go to the last photo, when it sees a QR code, it will automatically read it and will give you back that data over I squared C. And it's very fast and very good and a lot less expensive than most QR readers because it has a general purpose microcontroller programmed with TensorFlow Lite for microcontrollers that does the image recognition. So I think I'm gonna skip doing a demo because it's very simple. There is a video, you wanna play the video? Oh, yeah. Let's do the video. Nice live demo. Yeah. All right, so check it out. Really good pricing. I think it's like $7 for the sensor that does a lot. And you know, secretly you could probably hack it to do some other stuff too. So check out TensorFlow Lite for microcontrollers and a lot of other Pete Warden's smart sensor technology. Next up. Next up, this is something that we're using for internal hacking by thought I would make a dev board for it so other people could hack with it. It's a piezo driver using the PAM 8904. This is a chip that's specifically designed for driving piezo disks. And what's interesting is that it seems like the audio amplifier can go up to 300 kilohertz, which is not something you can do with it's 100 kilohertz, I can't remember. But it's like more than 20 kilohertz of piezo disks. So it's good for ultrasonic and like other like non audio based piezo driving needs. Sometimes you have to like vibrate something or you want to like bounce ultrasonic waves off of something a piezo will do that whereas the speaker will be too slow. So this is a driver that takes in three to five volts or two and a half to three to five volts and it will use two internal switch cap converters to give you up to three times gain on the voltage. And then he uses differential output. So if you have 3.3 volts in and you have 3.3 times gain, you'll give you 10 volts output. And then differentially, because it's like plus or minus you'll get 20 volts across the piezo. So much stronger drives, especially we needed this for doing ultrasonic experimentation where you can't just drive it from my controller pan and get, you know, three volts, 20 milliamps output you want something much stronger. There's a little gain setting at the top. Both are off. It's, you know, if both are set to off then the sensors in sleep mode or the drivers in sleep mode, one gain, two gain both to the right is three gain. Only thing to watch out for is don't set it to three gain if you're using four volts or higher because the output really doesn't wanna be more than 10 volts peak to peak. And while I wish they wouldn't let you purposely destroy the sensor and you're not gonna destroy it instantly it's not good for the sensor to be strained. So if you're at five volts, you know keep it to one or two gains so you don't go above 10 volts. All right. And then the start of the streets and I just like the lady at our customers our community, the entire unit for staff and more is. Yay, it's the NXP Digi-Key Adafruit collab that we started in late, late 2019. Finally here in the shop, we've got a Metro shaped board with the IMX RT-1011. We have an existing board that's very similar to that as Wi-Fi. This one has micro SD so it's very affordable. So it's under 20 bucks and you get a 500 megahertz IMX NXP processor. This is a Cortex M7. This is like an incredibly powerful chip and it's less expensive than many AVR eight bit micro controller boards. Like the silk screens like. Yeah, the silk screen is very beautiful. Thanks to Philby for it. It's got a micro SD card slot so you can use that for data storage or retrieval. USB type C has native USB. You can power it from a DC jack. Again, this very powerful 500 megahertz processor with 120 kilobytes of RAM. And for storage, both disk storage, internal disk storage and firmware storage, eight megabytes of QSPY flash. So it's very speedy. So great for data logging or if you want to stream data off of the micro SD and process it very quickly. Cause we don't have anything fashion the Cortex M7 for micro controller. A lot of accessories on it as well. And not just you've got all of the Arduino compatible headers so you can use shields with it. Static UT port as well. Neo pixel built in that micro SD card on off switch a JTAG SWD port. So if you want to do step debugging, you can connect this up to your J-Link and use it with MCU expresso, which is an XPs ID. You can do step debugging with their programming system. I will mention though, even though it is Arduino shaped it does not actually run the Arduino ID. Instead we have circuit Python support which I think is great because you can get up and running really fast. And we support I2S and SD card reading and digital in-out, PWM, analog, all the stuff you expect. Or you can use NXP's IDE, which of course is going to be the most powerful and they've got IDE with tech support and all of the ARM Cortex SimSys core required to use all the peripherals on the M7. So you want to get started really quickly go with circuit Python. You want like power and control over every register and every byte and all the caches use NXP's tools. But either way, this is the partnership that we're doing because we wanted to show people that even though this is a 500 megabits processor, we can make it as easy to use as an 8-bit microcontroller. All right, and somewhat collectible, we're two I think this might be the first circuit board with the new DigiKey logo. Yes. And that is new products for the week of this week.