 No, no, no, no, no, no. All right. Well, first up, we have these lights. OK. So yeah, we got a couple of alarm lights. So this one I'm actually going to hold up and demo because it's really loud and annoying. And so I thought that would be really good to do. Oh, yeah? Well, it's not that loud and annoying. OK, so here's how this works. I can't hear anything. Well, I haven't made it loud and annoying yet. It's just flashy and annoying. So inside here, there's like a square piece. There's four pieces of PCB in a square. And so it kind of looks like it's rotating, but it's just like it just lights up the LEDs in the order of the square. So it doesn't have any mechanical rotating thing, which I think is good because it means it's not going to fail on you, although it doesn't have that cool mirror reflective, you know, cop car sort of alert thing. That said, this has both the rotating LEDs. So you just power it. There's no speed control. And there's a knob. And when you turn the knob up, it will start making incredibly annoying sounds. You're annoying. Thank you. That's what New York sounds like when you're trying to sleep at night. It's pretty much. This is like you're a little New York in a box. I just want all the annoyance of having constant sirens. Go ahead. But it's really good. I like the simplicity of this. It's got three mounting screws on the bottom. They're M4s. It's got the piezo. I like that there's an on-off and volume knob. So you can change however loud you want it. And you just give it three to 12 volts, whatever. It has a little regulator inside. And it just does its thing. So if you want to control this from a microcontroller, you'll need a transistor, an N-channel, or whatever transistor to turn this on or off because there's no control pin. You basically just add or remove power and you're good to go. That said, we see people's projects where they want to have an alert or alarm. This is the only thing I've seen that has this look and is three or five volt compatible. You can just power it from three or five volts, which is wonderful because most of our tower lights are 12 volts. This one, very easy to use. All right. Speaking of tower lights. And can be loud and annoying or not. This is a tower light we were talking about. This is another tower light. So this tower light is interesting because it is a tower light with a USB connector. And usually, tower lights come with 12 volts power pins, basically. And you can literally just turn on the LED elements. This is a little bit more expensive because it's completely plug-and-play. And there is something to be said about this. If you want to do no wiring, no soldering, no microcontroller work, you plug this into USB, shows up as a serial port, and then you just open it up as a comm or serial port with pie serial or mini-com or screen or whatever. You send, there's a couple of different bytes, and the bytes will turn on the red, yellow, or green LED. And it also does have an annoying buzzer, although I don't have it set up yet. Everything should just be a serial port when you plug it in. Well, this is nice because it's ready to go. There is something to said for people who, they won't have a tower light. They want to be controlled by a computer or a Raspberry Pi or something with a USB port, and they do not want to deal with a 12-volt power supply. They don't want to deal with P-channel fets. They don't want to deal with microcontroller. It's good to have with a Raspberry Pi. Super easy to have with a Raspberry Pi, and it's a very solid, well-built tower light. I really like the construction. Do you want to show it? I think I can hold it out real fast. And then if I plug it in, it'll beep. So I think we should try doing that. It can hold quite a nice assistant. That's going to beep. Maybe hold it in here. It's going to beep. Thank you. Yeah. So when you plug it in, it just does that alert beep. That's how you know it works. That's how you know how loud it is. Yeah, highly annoying. Oh, no. Very nice. So it also has a blinking mode. But I added some Python high serial code to show it off. You can just loosen the screw, and you can have it tilt up. You have this little tilt, and then it has four mounting holes. Yeah, super. I don't know. It's handy. It's all in one. Again, no coding requiring no microcontroller. All right, next up. OK. If you like the Macro Pad, and you're like, that's a nice OLED. I really like that that OLED has a little plug-in thing. You don't have to solder it. We have just the OLED available. So can people crack their OLED screen? Maybe they want a replacement. This OLED is an SH1106G 128 by 64 monochrome pixel OLED display. And the reason I really like this and why we've used this one is it has a plug-in FPC connector. So this made the 80 box possible, because we didn't have to hand solder four or 5,000 OLED screens. We just plugged them in and popped them off. So you do need to. This is just the OLED. You do need to add circuitry to it. It's controlled by SPI only. It does not have iScore T available, because if it was, I wouldn't have used it. Check out the Macro Pad PCB files for the wiring, because you do need a bunch of capacitors, a couple of resistors. And you will need to supply it with 9 to 12 volts DC using a little boost converter for the OLED biasing. It does not have a built-in booster. Next up. OK. So now we have a couple of components of a little bit weird. People are like, why do you put some LSM 9DS0s in the store? We haven't used this chip in actually years, but we were doing some cleaning out here. And we were like, oh, we found a wheel, or not a full wheel, but some chips on a wheel of this 9DS0. And I was like, oh, you know, normally I would toss these out. It's a couple hundred bucks worth of chips, but what are we going to do with them? Because we don't make the breakout anymore. But I was like, you know, with the chip shortage, there could be people who really want this chip and they can't get it. So you get one on a piece of tape in a bag, ready to go. You can't buy these anymore. So if you happen to need this part, we have this part available. It works just fine. Well, supplies last. Yeah. Yes, after it's gone, it's gone. Next up. We also have these SMD navigation switches. They're five-way navigation switches. So it's up, down, left, right, no diagonal, and then button press in. And this is the SMT version. We also have a two-hole version. This is an SMT version. We've used it in multiple bonnets, hats, whatnot. It has a little pointy nubbin that you use your finger with to push it around. It's just a nice way if you want to add a user interface, but you don't want it larger than one button. You don't have to add five buttons. You just have this. All right, more chips. We also found some TLC551s. These are very nice versions of the NE555 triple nickel 555 timer chip. What I like about this particular version is, one, it's dip. So you can use it in a breadboard, solder it to it easily. Two, it is using a CMOS process. And so you can run it down to one volt, which means you can run it on a double-a or triple-a battery. You don't need five volts or nine volts or even three volts. So we use this in the drawdio because it'll run off of a single triple-a, which I think is super cool to have such low voltage electronics. And you can also run it up to 2 megahertz. It also has, I think, 100 milliamps sync. I mean, it is really, this is like the Cadillac of 555s. It's a little bit more expensive than the NE555, but it's, like I said, super fancy. And it is a drop-in pin replaceable for any 555 without having to worry about voltages or TTL levels and all that nonsense. More chips. We also found a bunch of FT232 BLs. Boy, these are a little old, but they still work quite well. We used to use these in some of our, my controller designs at the Zoxbox use this chip as well. There's people who probably have designs that they're making that use this chip, and we figured, again, normally we would toss them, but since there's people who could use them, why not put them in the shop? We're selling them for less than I paid for them. It's hard to toss chips right now because every day is like, what about these chips? Like all the questions in the chat tonight have been like, tell me about the chip shortage. When is it gonna end? I don't know, but if your chip shortage is for the FT232 BL, you are in luck. You can pick them up as 10 pack in the shop. And they come on, these are loose. They come in a tape strip when you order them. All right, this is not a chip. Not a chip. All right, now I'm moving on to new, new products. So this is a adjustable 24 volt power supply. And I really like, I like these because you don't necessarily need a bench top supply. You just want something with adjustable voltage so you can power a five-volt thing, a 12-volt, nine-volt, 24-volt thing. Instead of just getting one brick for every voltage, this one does them all. So over here, and I'll show a little demo. Rock on the focus, okay. So you've got on the end your standard 5.5 out of diameter, 2.1 millimeter inner diameter, DC positive tip polarity plug. And then here you've got this little knob all the way to the bottom, it's 3.3 volts. And then as you dial it up, the voltage follows until you get all the way to 24 volts. So that's what you get. It's about one-ish amp out, but you can adjust what voltage you want. And I love the little display that's so nice, I think they are so cute. We also have a version that does three amps, but only goes up to 12 volts and that one's quite popular too. So pick and choose if you want more current, get the 12-volt version. If you want the higher voltage, get this 24-volt version. Next up. Okay. Marry the stars of the show, which are the two-parters. All right, these are the two-part stars of the show. Besides Jeff, besides you, Lady Aida, besides our customers, besides the staff, besides the community, besides the tower light. This is the star of the show. What do you want it? Alert, alert, star of the show. That's the star of the show alert? Yeah. Maybe we should keep this here forever and then whenever we do star of the show, we can turn this on. Okay, so this is part one of star of the show. Okay. This is a Zippy A&L rotary encoder, which is like, okay, let's be honest. It's basically a knockoff of the original iPod Classic scroll wheel, like the mechanical scroll wheel, not the capacitive touch one. This is the original luxurious, clicky scroll wheel version, which eventually I think people, like they got crumbs in it or something, I don't know. So they stopped making it these capacitive touch now. But at the time, this was amazing. So this is a rotary encoder. No, goodbye. This way, this way, this way. Yeah, so this rotary encoder, the center part with the little mini divots, I think it's like a 24. Each divot is a little click. It's a, you can feel the clicky rotary encoder-ness. It's got your standard two pin rotary encoder output. And then it's got the center button up, down, left, right. There's actually a little bit like that NAV switch we were showing earlier, but this has got a rotary encoder in the center as well. Only thing about it, really annoying. Look at the bottom. The pins are in like totally weirdo locations. It's, you know, you can solder wires to them. The pads are quite large. But if you want to make it easier on you, you could grab our breakout board. And when you solder this to the breakout board, it makes it so easy to use because it gives you a line of headers with point one inch spacing. So I just kind of did that work for you. And you see the solder and you're golden. It's a pair. It's a pair, it's a pair. So it's very luxurious. Show on the overhead. Yeah. This is the- You wanna make your own Nomad MP3 player? This is how you do it. Yeah, basically. It's a little drive circuit. Can I click it? Yeah, why don't you click it? And then I see. Ooh, yeah, yeah. Got a winner there. Yeah, so, yeah. As I rotate it, you can see the LED moving around. And it does make a little tactile click sound. Up, center, left, right, down. Comes in a classic Adafruit black. In this case, I'm just plugging it right in and onto a feather. The buttons are, of course, there's normally open buttons that, you know, just use them as any GPIO inputs. And the rotary encoder, you'll need to use the rotary encoder support for your microcontroller because it uses the two pins in a kind of a gray code style thingy to know which way they were turned. But it is just a normal rotary encoder beyond that. So another nice navigation switch. All right, and that is new products.