 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, no, no, no, no, no, no, no, no. Okay. Okay. This is a bracket for the Elite Motion 2 sensor that we put the store a couple weeks ago. If you want to mount it to something. Okay. It's like 3D printed, maybe. This allows you to mount it to like your head so you can make it to like a VR goggles type thing, to your robot, what have you. This is like a handy little clippy adapter to take your 3D sensor and make it portable. Okay. Next up. Next up. These look a lot like our FSRs that we've been stocking for a long time and they are kind of the same as the FSRs we've been stocking for a long time. These round force sensitive resistors can detect pressure when you press the round part at the top. It's a force sensitive resistor. So the more you press it, the lower the resistance is. Normally there was this open, like there's no connection between the two contacts. You press it and the resistance goes down, down, down. So you can use it to detect force. And the FSR that we've already stopped is up to, is basically 0.1 to 10 newtons of force. And this one is 10 to 100 newtons. So it's 10 times less sensitive. So it's good for when you have high pressures. Like some people are using the other FSRs for detecting when people were walking, but you couldn't, you know, the force that somebody exerts with their heel when they walk was so high. There was kind of like blowing out the range of the other sensor. This one has 10 times as much range. It's not good for detecting soft presses, but very good for detecting stumps. But it looks the same and works the same. You picked up as a resistor divider and then feed it into an analog digital converter to read the resistance. Next up. Next up we have a revision for the RA8875. People have been asking for like almost a decade to, hey, can you please put a tri-state buffer on the output pin because you can't share it with an other SPI devices on the same bus. We finally had to revise this board for other reasons. The backlight driver chip got discontinued. We're like, oh yeah, let's also update it. So what's cool about this chip is that it can do SPI to a 800 by 480 max TTL display. These displays are usually very hard to drive from microcontroller. You know, we were showing some off the ESP32S3 is a wear micro that can actually drive those displays. Normally you need a microcomputer like a Raspberry Pi to do it. But this way you can do it from microcontroller. It's not cheap, but it has like built-in font and built-in shape creation. We've got Arduino and circuit Python drivers for it. And now it's been updated with this new backlight driver and the SPI port can now be shared. Based on the same price, basic same functionality, electrical and mechanical, just a little bit better and also an Adafruit Black. All right, the start of this episode to you, Lady Ada, our team, our customers, our community is... It's the iSpy Beret for Raspberry Pi. We had this in the shop and we finally finished the tester jig. So if you want to add a quick plug-and-play hardware to a Raspberry Pi, I actually made this mostly so I could test and debug displays and, you know, E-Inks and TFTs and stand-by QT connectors with a couple buttons. But I was like, yeah, it can be handy. It's very slim. It doesn't take up a lot of space. You can work with any Raspberry Pi with a 2x20 connector, so your Pi 3, 2, 0, whatever, your I-O board with the CM4 module. And it's got a couple things. It's got two tactile buttons and one switch. So just good for, like, you want to have a little bit of physical interface. There's also a stem and QT connector on the left that connects to the iSquared C port. So you can plug-and-play all of our sensors very easily. So you add accelerometers or some OLEDs if you want, or, you know, light sensors, temperature, motion, all that good stuff. Just plug-and-play a cable on. And then the iSpy connector in the middle is for connecting our displays. So many of our displays now have an iSpy port on them, which means you can use a cable, much like stand-by QT, but it's got a lot more pins so you can connect a display. So I've got a demo. I can show off. This is my Raspberry Pi 4. And then I've got the iSpy board. This is green because I keep the prototype for myself. And this is one of our displays. You look for the iSpy logo on the back. You know that you can use one of these plug cables. And then these cables come in various lengths. And then, you know, there's no soldering. There's no difficult wiring. You just plug it in here, plug it in there. And then, you know, this is a little GIF player demo we have that's written in Python. This is fanatic. Yeah, I made that on 4th of July. Yeah, I made it on 4th of July. You know what? Not too bad. Like that was the demo. And now it's five months later. Yeah, five months later. So from one month of, you know, doing that demo to it's in the shop. But, you know, very, very useful for you want to connect different displays. So good for any of our SPI displays up to 240 by 320. But also many of e-ink displays. Our e-ink displays have this connector as well. So also if you just happen to want to bring those pins out and then connect them to some other device for some reason, we have a breakout for this cable. So you can have it onto the breakout and then have the GPIO far away. So this is just makes for very tidy wiring, much nicer. You also, of course, have the kernel console show up here if you wanted like a terminal display or you wanted X to display on it. Very low resolution, but you could do it. You know, a lot of people want to use our displays, but not necessarily have them mounted directly on the Raspberry Pi. They want them elsewhere. And this makes it very easy to do so. So you just mount it wherever you like. And that is new products for this week. New, new, new, new, new.