 I'm a designer here at Adafruit. Join me every week is for the Pedro. Good morning, everybody. I'm Pedro's creative tech here at Adafruit. And every week, we're here to share three reprinted projects featuring electronics from Adafruit. That's right. This show we combine 3D printing and DOL electronics to make inspirational projects. Hello, everybody. Hang out in the Discord chat room if you'd like to join us. During the show, you can drop in a comment, question, a GIF, a meme on the Discord. That is on at discord.gg slash Adafruit. Yeah, we'll take a moment to welcome everybody to the show. Give us some shout-outs. Shout-outs to everybody hanging out in all of the chat. We've got Paul Cutler, Andy Calloway, 2231. Puppy, Yanni, Duwester, Hasentent Road, Liz, Yanni, Rosin, good morning. We're also hanging out in the YouTube chat on Facebook and LinkedIn and Periscope. I think our mic is working again. It's working again. Is it? Hello? Hello? Should be fine. We're trying. We have a backup mic ready, too. We're good. All right. I'll just speak louder. I was probably, you're closer to the mic than I am. Audio is the biggest problem, yeah. Project this way. All right. Well, let's go ahead and keep being head on over to Adafruit.com. You can find out all the deals that are going on right now. I'll kind of skip through them. But you get different tiers. Go to Adafruit.com slash a furry for those details. Also, the holidays are upon us. If you go to the Adafruit blog, you'll see here we have a featured blog post about shipping deadlines for the end of the year here. So if you want to take a look here, you can see. The last day would be the 12th? The 16th if you're doing the day. 16th. The 19th if you're doing two day delivery and next day delivery, that is the 20th is the last day. So check those out. If you want to get some stuff in before the holidays. Ooh, that's getting close. Very close now. You're going to have to order now. Wait for tonight though. We get a 10% off coupon code. All right. Shifting gears over to help wanted. Go to jobs at Adafruit.com to find out all the latest job postings if you are in the market for a job. Check out all the latest listings here. We got one in November, couple in October. Check those out if you're interested. It's probably going to be a little slow since the end of the year, but there you go. And that's the job support. Given a shout out to everybody who's subscribed to the Python, the microcontroller leaves a letter. You can subscribe to that by going to AdafruitDaily.com and subscribe to any of the other cool category specific blog posts. But newsletters, once a week we have a newsletter that's focused on products. Go to Adafruit.com slash newsletter for that. Want to get some shout outs to Paul Culler for hosting the Circuit Python Show podcast. You can subscribe using your favorite podcasting service or YouTube. Back over to Discord. That was a pretty quick morning run. But yeah, we'll see if we can get through everything. We've got a lot of community makes and fun projects. Do you want to jump into this week's project? Just go ahead and jump right in. This week's cool project is. This week we got a snowflake, a glowing LED snowflake. So we used LED noodles for this project. And I thought it'd be fun to make an ornament that can go on a tree or something else. And these are four different LED noodles that are in parallel. And then what I like about it is that the snowflake design kind of allows for the battery to kind of be mounted in the background. So it's kind of a neat, all fully contained. The last noodle sign we did was kind of like bring your own battery. But I really like that this is a fully contained kind of design here where you got the battery in the back. It has a built-in on-off slide switch. So it's super easy to turn on and off. And then with the JST cable right here, you can always swap out the battery for something else. Maybe you want to hang this up on a window and then plug it via USB so that you can just have it running off of wall power or power supply. But yeah, these are the yellow and the warm white LED noodles. They come in different colors, but I'm using the yellow and the warm white here. The design is pretty simple. I really like that because of the snowflake element, you got this hexagon in the center there. And that's actually where all the wiring is hidden. I can take it apart, we can just look at the learn guide, but it's really nice to have your design integrated with spots for the wiring. So that's what's hidden behind this little cover here. They all just kind of press fit. And then you have these two screws and hex nuts that secure the battery holder to the back cover that's three-printed. So it's a really nice kind of, like I said, compact design that's just ready to go. So that's kind of my latest noodling. So pretty fun. No programming or anything, it's just your LEDs and your coin cells. So there's no programming, it just turns on. But just fine for an ornament, right? So I think it'd be kind of cool to take this idea and make it into some sort of wearable, maybe some antlers for your head or like a pair of kind of fashionable glasses or something to be kind of neat. But yeah, it's got this really nice effect. And when you print it, the diffuser and the translucent PLA, you can have, they can pretty shine through the back too. So it's kind of like double-sided in a way. So if you had a different design, you can make it so that you can see it in all angles if you use this filament, the translucent filament. And it spins. Woo! See if I can switch the camera angle, just get a better look at it. There's one, and there you go. Yeah, there you can kind of see how the LEDs are in there, which kind of adds to the effect there, these little dots here. The batteries are already kind of low, so they can get really, really bright if you have bigger batteries. So once it looks like it's turned off, it's turned on. Yeah, so it looks great at night, though. Very, very bright. You can get even brighter, though, if you swap out one of the eight of your batteries here. As we saw last week, these are eye-blinding. The size is also good enough to use as a topper on your tree. Yeah, probably do that. I have a little hook here, just in case people want to hook it to the tree, or on top of the tree, or whatever. Or like you were saying before, with a suction cup, you can have those little hooks that connect to your window. Yeah. I stuck with this design that only has four, because I didn't want to have more LED noodles, because I just felt like wiring six of them would have been difficult and power consuming. So one of those design constraints. So I stuck with four. And then I tried using one single noodle to make the snowflake, but I didn't have enough length. And I could come with a good shape. So that's why I went with four. But yeah, that's the end result. Let's go ahead and jump into the learn guide, and we'll kind of quickly walk through it. Head on over to the learn side. You can check out the learn guide. Navigate, there we go. So I think we got all the stuff in stock, which is really good. So those two noodles are in stock. The CR2032 Quencil Battery Holder. It has two of those. Those are in stock. You got the JC cable. Everything's in stock. Yay. Check that out. The overview guide has some links to if folks are just getting started with wiring LEDs, we have a guide. Sure, project. We have a guide on the Adafruit Learn site that talks all about LEDs, polarity, resistors, the like, the LED Noodles Uber Guide. This is just going to walk you through some of the characteristics of the noodle, some demo code as well. So check that out if you want to use some PDF. But other than the parts, they're all here. Got a couple of wires and things as well. What do we got? Is it just dead or? No, no, no, it's just the, is it pointing, like, is the receiver leg over on this side? Yeah, I think you're right. Yeah, it was on the condenser mode. It was on voiceover mode. So now it's on uni direction, omni direction, uni direction. OK, good. Yeah, it should be good. Thanks for that. Now it should be good. Yeah, it was literally just this side. That's why we got that comment on Discord that was like, only one mic is working. Yeah, it was that. Yep, you're right. Thanks, puppy. Puppy, that is right. We have fixed it, though. All right, we're just getting into the guide. So that's good. Refresh. Circuit diagram, it showcases how you need to orient the pins from the LED Noodles so that you can be shared. We're going to wire them all in parallel. And then we're going to use these two wires that kind of, they act and they connect the voltages together and the grounds together. It can be a little bit tricky, but what I like about the project is the 3D printed holder and the length of the Noodles are just about the right length where they're touching already. So like, soldering is like, they're already set in place. The little holes inside the 3D printed thing kind of act as a jig to keep the noodle pins in place while you're soldering. So it's kind of nice. You've got to be careful, though, because you can burn the plastic that's underneath, because you have to kind of have the cover in place while you're soldering. So just that little note there. But the circuit diagram just shows you how I wired it together. It's kind of this clever way of sharing voltage and ground so that it's wired in parallel. So yeah. CAD files are up there. You have STLs, you have the step file, plus you. It was done in Fusion 360. And a couple of weeks ago, I did a LED noodle shape tutorial on how I go about designing shapes using Fusion 360. So that's a good little tutorial if you want to learn how to make a custom 3D printed sign or holder or some sort of thing with a noodle. Onto the assembly, this just kind of walks you through the right order operations. You're going to want to install that cover before installing the noodles. I recommend using flat nose pliers to help pull the pins of the LED noodles through those holes. Those holes are there to keep it nice and taut and to keep those pins in place. So as you are building it, you're going to want to keep reference of the pins, the voltage and the ground pins. You're going to have to make sure that they're in the right spots. So that's why I kind of break it down branch per branch. Like you want to just kind of focus on one branch at a time. And then as you're installing, you want to keep flipping the sign so that you know that you have enough length. It's the right length. And that the pin is in the right orientation. So by the fourth noodle is installed, you have a good idea of what the layout is going to look like. And from there, you can start installing the back cover with these screws. I'm using M2 screws because those are the right mounting holes for the battery holder. The battery holder has mounting holes, but they don't kind of poke through all the way through the top cover. So what I ended up doing is I used a M2-5 screw tap to kind of poke the holes because they're not present. So that's how I was able to do that. The holes are already injection molded in the back of the case. You just want to use that screw tap to kind of poke through the top cover. That way you can secure the whole thing to the back cover. So that's what I ended up doing. Yeah. When it comes to the cables, you've got two short wires. And you want to cut the size of the JST 2-pin cable so that you don't have too much wire slack. This is going to be kind of want to have it short. So I have it about three inches in length for the JST cable. So this is going to be a little bit tricky. I recommend using tweezers to help solder three things together. So you have two of the pins from the LED noodle, plus your bridging wire and your JST cable. So that's actually four, isn't it? Whatever, it could be a little tricky. So yeah, use tweezers. It's hard to get your hands in there. And again, you're going to need your dexterity and finesse to not. Because as soon as you solder one thing, the wire might fly off or the pin might. So you're just going to be real careful with that. But you can do it, I believe in you. And maybe use some cap on tape or something. I'm sure folks have their own tips and tricks on how to do it. But yeah, I'll see if I can do it. And when I got it done, I was like, all right, this is good. Once all of the cabling is all wired up, you can plug in the JST cable to the battery and power it up. And then to install the back cover, there's a built-in slit for the wire to pass through. So that's nice. So you just slit that in. And then you plop the coin cell onto those screws. And then you secure them with the hex nuts. That's really it. So yeah, that's kind of the full assembly in a nutshell. It's all ordered in the correct way as you're building it. So yeah, that's kind of it though. Very nice and compact. Very awesome. I really love how skinny and small those are. We had a question from Koshy on the Discord. Visually, how do they compare to the flexibility of the neon strips? We've got a little strip of that right here. These can look the same if you have another battery to plug this in where you can't see any of these. That's basically what this will look like. But the main difference is how big these are. You can see how huge, both depth-wise and length-wise it is. So yeah, it's two of these combined. So it's definitely one thing to take note. And these are addressable. So these are neopixel. So that's another difference in them there. Yeah, these can be tricky wiring, though. Because the way you would not be able to bend these in there. The way you cut them, you have to look for the thing here, the pad. They can only display every three pixels or so. There's limitations on the bend radius. Look at that. You really can't do a 90-degree bend. As much as you can bend. You don't want to bend it and break it, which I have done. So you're really limited on your bend radius. But the main question is on visibility. So visually. Yeah. Yeah, they can be pretty bright. Let me show you, folks. Let me turn this off. All right. And then this is just the 3.7-volt, 2,200-milliamp lipo battery. At this point, if you're going to use one of these batteries, I recommend using a resistor to limit the current, because this gets really, really bright. I know this is going. It's more of a light at this point. You can see in the overhead, my face is lit up. So it can get very, very bright without a resistor. And these are four of them. So that looks really cool, though. But yeah, you can just barely make out. In human life, if you're looking at it, you really can't see these dots here. Maybe if you try it, too, you're going to get blinded. But that's a good look at full brightness here. It becomes a light element at that point, like an actual flashlight. Let's go back to the color temperature of the warm white. Yeah, I'm not sure. You can check that if there is a data sheet, I don't think there is. I want to say 30K, but the way manufacturers. So this is yellow, and this is warm white. So you can really see the yellow here and the phosphor, whatever they're using. Depending on the. It's kind of hard to see, too. When you're turning them off, they look the exact same. So I even struggled a bit to know, is this the right? Because I really wanted yellow, yellow, and then warm white. Warm white. So yeah. Now the way that manufacturers post color temperatures, like 300K, or 30,000K, 50,000K, it's always flip-flopped, depending on what you're talking about. So for light bulbs, I think, for the kitchen, I think the 30K ones are the ones that are more yellow. So it's always a confusing mess on that. Yeah, so that's a good look at that. And comparing them to the neon, you just get such smaller bend radiuses. You can get tighter designs. Like, you couldn't do this size with these. It just wouldn't work, you know? These are the minis, right? Yeah, these are mini, skinny, neon, neopixel strips. I had to look at the. They are. They're very. The label that makes like a monster. They're about 12 millimeters. So these get even bigger? I think they're 12 millimeters width, and then this is 2 millimeters in width. So it depends on what you want to do. You want to animate these all to make a big one. I would have printed each branch separately if I were to do it with these neons, and then glue them or screw them together, the branches. It would have been a big sign now, like this big. But maybe that's what you want. If you're doing something big that needs to be seen from a distance, definitely go with these. That's definitely a good idea. If you're doing something small that maybe it's going to be on your person or like an ornament, I guess go with these. A Lego build. That's what we did. We did a sign for the Lego noodle shop. This will work well for that. They're only 300 millimeters in length, the noodles. You can't cut them short because they're not designed to be cut. These definitely can be cut. Size them up. They range them. And you can make 90 degree looking bends. You just have to be strategic about how you're wiring them up. It would be like this. Yeah, it would be like that. And just cut them and wire them up. Yeah. And you can do one of these. Yeah, you can do one of those. Yep. You get really clever with your shapes. Yeah, crummy is the same. Yeah, it's not listed on the Nudes page. Probably because. Yeah, it's just too inconsistent. The tones have probably changed. Yeah, I forgot a different batch. That's exactly what I'm trying to get to. We get a supplier because we change suppliers after the first batch of these. So that's why it might be a different color temperature. And the yellow is more yellow. The warm white is just a tad bit more white. A little bit more tint of the white. They're desaturated. And I think that is it. Yeah, that's the project. It's a question. Kind of nice. The CAD files for this is on the GitHub. Posted the link to the app. The CAD file for the noodles, what do you mean? Right, the noodles of the, just like the shape of it. So you have the band radius on it. No, I don't really have a part for the noodles because they're freaking flexible. It'd be like having a string or like a bare LED. I don't add bare LED parts. You can grab those from the various sites like Tinkercad, GrabCad. But I got that layer by layer on how to design the shape for the noodle. So you can use that. It's listed in the Polar Guide. That is linked in there. Of course, you can grab the Fusion file. Yeah, the Fusion file. I saw a couple folks download the Fusion file off Thingiverse. So you can use that to reference. Yeah, it's sizing. Some diamonds. Yeah, cool. And that is this week's project. Glowflake project. Glowflake. It's a cool one. It's not a snowflake. It's a glowflake. Let's jump into what are we prototyping? Noodles. All right, let's do that. Pigeon's going to grab his project. This is a retrofitted blast from the past. One of my favorite laptops growing up. Let me switch the camera real quick. So this is a pretty popular one on TikTok. I'm going around making the rounds. OK, ready? Here we go. I should have gotten you the link to the person who's doing this. I think there's a couple people where they're gutting their old iBooks and making it into an iPad case. So of course, my wife saw this. A lot of her friends are like, oh, your husband can do this. I'm like, I don't know. Yeah, because the way that they're doing is they're printing entire body pieces to it to fit custom keyboards and stuff like that in it. I'm going to grab this one. That's something I totally did not want to do. So she ordered one. She's like, OK, here's the laptop. I'm like, OK, I'll get to it. And then before I know it, she's already disassembling it, gutting it. And I'm like, OK, crap. I guess I got to do this for work now, because there's no way I can do this on the side. Model all this stuff that takes six hours to even print. Yeah, it's a big part. So yeah, walk us through. And then film our love retro projects. We have a whole, how long did Jepbler spend on coding Circuit Python to accept floppy disk drive? So clearly there's stuff there. This got so popular that this is, I guess, is his full-time job now, like gutting these and turning these into iPad cases. So I wanted to make one where it's not as complicated, where you're not printing an entire case for your keyboard to fit. Obviously, you want to make sure that all the things that we sell in the AdFords store, it's something that you can buy, so it combines all that together. So what we've got here is two pieces that will hold the iPad in place and this sweet keyboard that fits perfectly to the size of this, with the trackpad on there. This, they don't make a freaking keyboard that is like this precise size to fit in there. I tried. Somebody can find a link to it. I look at what the dimensions for this Ry keyboard is. They do make an updated Bluetooth one, but it's just like longer. It won't fit in there. What I see a lot of the people doing is completely sawing this whole thing off to fit like a longer, bigger keyboard. And again, it completely takes away from the aesthetics of having this cool, translucent case that made the 90s so memorable with translucent casing. So I wanted to make sure that we kept as much of the case in place. Yeah, so very little destructive done needed. So you just take out the main components. This is all gutted out. And then you have this 3D printed tray that gets press-fitted into this cavity here. And then this goes on top. And that's not fits in there. It's still getting all the, obviously, there's still more parts printing out, so that it'll snap in and this little scooch right inside. And then this pops out. Yeah. The hinge still works. I think this is the main reason why they like it because of the hinge on there. So of course, that still works on there. And if I pop this out, because I'm preaching out the one that has the proper alignment, so you can actually pop this out. You can see how this is inserted in here. Check this out, folks. This right here is what's making the keyboard. So we have this guy here. And using all the existing CAD files that I made for the flexible iPad case a couple of years back. And this is the main thing that's making it work, our magnetic USB little adapter here, which is perfect for this, because you have to have this to work with the keyboard. They don't make a Bluetooth one. So I have to have all these dongles and adapters connected on the side. Yeah. Red angle for the wind. Right? So we have these little cutouts for that. If something happens, the magnet will just come off. So you're not going to completely bust your port. And we do have these in stock. These are a high current, too. Like does 120 watts. So you can charge fast charging with this. And then we have a little dongle on here. Again, could not find a keyboard that could perfectly fit within the dimensions of this older Rye keyboard. So this works perfect for this. And then, yeah, this will be we have some nice little access to the power, the volume, and then this little tab here to pop the whole iPad out. If you show wish. Yeah. You don't have to glue your iPad in place, folks. So you can find the tech talks. He's like gluing all these magnets on. It's way too much. I get it. You know, I get it. Because he's adding like a charging, like a gcharger for your watch and like cooking up speakers and doing all this stuff. It's like, Brandy doesn't want any of that. She just wants a case for her iPad. Right. So that's going to be a good one for people that can actually Yeah, they're like 100 bucks. You can find these on eBay. And you know, even less if they don't work because you don't need them. All you need is the case. Quick story about where we've got this one. We acquired it. We actually didn't own one of these. We had the graphite one for like a week or two. And I was like, I need a fire wire. Yeah, I need a power book. These were purchased from a school. Now you can see the school district here, wherever this came from. So there are tons of these. Oh, did it come broken? The power adapter came all busted. It might have started up. I don't know. Brandy gutted this thing and it's a lot of fun to work. So very, very cool kind of retro piece of gear. What I showed Gavin, Pedro's nine-year-old, he was just like astounded by the design. He's like, what? This looks like it's from the future. I said, yeah, I know. I'm like crazy. It's like, didn't this look fun? It comes back. And then I showed him this laptop. I was like, what happened? He's like, well, people got older and stopped having fun. But I don't know. There's some, yeah, there's, I don't know. It was kind of neat. So a lot of fun hacking to be done here. Yeah, yeah, it's almost done. It's just the pieces. Three printed inserts. It's going to be designed specifically for the iPad Pro. This is the 11-inch Pro. I think they're still the same dimensions. I don't know my iPad models, but I'm so many. I think this is two years old, maybe. Yeah, I am out of that. Right, like I had an iPad every year where we're done. We don't make apps for these guys anymore. But I like this app. This is the Anno Studio. I'd love to do some music production on something like this to be fun. Yeah, everything snaps in. So it's not permanent. Yeah, I love it. You don't even need to screw the things back in. And yeah, it's a nice way. Hinges are gnarly, man. Yeah, battle hinges are quite beef. So sad when you had to take it apart and you're chopping off all the wires. Yeah, there's wires. This thing doesn't work anyway. Right, the screen. I remember trying to start off or start up one of our old laptops. It's like, oh, our Wi-Fi isn't even compatible with. Yeah, no, they're not. Wep. That's what I think. It doesn't even connect anywhere. This was the first, I think, laptop to have wireless integrated. Yeah, there's a whole history of all of this. Yeah, there's a lot of first times. People were upset they didn't come with a floppy drive or a PC card slot. What the heck? No PC card slot? What's going on? People were upset that it had USB. Yeah. Like, what? Like, certainly you're saying that, yeah, some people are upset because collectors want working units. There's so many of these. These aren't rare by any means. You're right. Their schools were buying them by thousands. Like, again, I did feel sad, like gutting it. Yeah, but it's got to. But I wasn't the one gutting it. It was brand new, so I was able to sort of be like, OK, whatever. Yeah, it's your thing. So although it seemed intimidating at first, you slowly, thanks for the brandy, too. Yeah, because I would not. Got in there and was like, OK, I can do this. Just chip at it away. And how long do you think you've been working on it now? I think a week or two? Oh. Long enough to be like, well, crap. Yeah. Whatever project I was going to work on, I can't work on that now. I've got this. I have to actually do this into an actual for work project. Photos do the whole thing. Give the guts to a collector. They're gone. Oh, man, the guts are gone. Oh, yeah. Yeah, I know. I asked for it. It's like, I want to see the chip. I want to see the motherboard. It was the first laptop that had like a integrated, like, fold. I don't know if you could see behind us. There's so much product that we have way too much stuff. We have no room. Do we still have that G5 tower? Yeah, that we do have. There we go. Yeah, we don't have any room for weird neck deep. I have to go through and spring clean all of the old feather boards and stuff. Or it's like, OK. Yeah, does anybody have an iBook? I'd like to know. Drop us a comment in whatever video. I'd like to know about your history with an iBook. You carefully remove and resell it. My time is worth way more than that. By the time I was using laptops, we had gone to the iBook non-clam shell. We were starting to go down the route of square design. There's no time. Got two kids. They get sick. And it's like, bro, you got no time for reselling stuff. But yeah, this is a really cool project. Obviously, all of the parts and the three-printed parts and then the actual case, the keyboard, all that stuff. It's all in the shop. So yeah, we'll release this next week. The print's almost done. Getting all the proper tolerances in there. And yeah, this is a nice, cool little throwback. It makes a good mirror. Oh. It's a mirror. Hey, look, it's behind the scenes. Yeah. All right, cool. And that is what we're prototyping. Cool. Hey, there I am with Mickey Mouse. Jeez. Cool. All right. Next up, shop time. I like that all the function keys and everything works on that. Oh, and the trackpad. Oh, that's so cool. That's very neat. Yeah, this is a really cool keyboard. Get your high book before TikTok buys them all up. Oh, yeah. There's a couple people that are doing these. I can see why. That's so cool. All right, let's go ahead and jump into. Yeah, just a reminder to check out the Adafruit CAD parts GitHub repo if you want to get some 3D models of Adafruit parts. Pretty much the same as last week, but there's always new ones. So check them out if you want to see the latest stuff. We've got NeoPixel driver BFF and some other add-ons. So check those out. I think that's it for Shop Talk. I don't have anything else. So we're going to run right into the community mix. Every week, we 3D print something from the community to a Timelapse video this week. It's a knitted stocking sock for the holidays. This one's designed by Dave. Makes stuff. Always making stuff. Intricate knitted design. This is a rainbow PLA silk filament printed on the CR-10S Pro V2. Looks really nice. I don't know why this looks like a Grinch stocking to me. Guess because of the green and stuff. But yeah, this is an excellent container for a Christmas-related paraphernalia. Yeah. We don't know why. Got an ample of mounts, ample amount of space. No supports. No supports. All regular settings. Nothing fancy. Ways like two pounds. I think the only thing I did was I sunk it into the bed just a little bit because the floor for this. It was too thick. I was like, oh, it's so thick. Yeah, so I didn't do that. I think it's like negative 0.5. It's for like a base. Anytime I check. Yeah, and that's a good thing to remind people. Always check your slice settings. I think you guys had some problems with that. Yeah, zero infill. Zero infill or where you extrude from a taper or at a weird angle and then your slicer, when you tell it to place flat, it doesn't place it flat. So make sure you always check on what your slicer is actually, the G-code that it's making, the preview for that. And anytime I see that there's infill required for the bottom, it's like, OK, that's bigger than a millimeter, 1.5 millimeters. So I sunk that in. So it's not printing a floor. And then some infill, then a roof. And it's like, why, what for? It's just wasting time. Any scaling? Did you scale it up or down? Scaling. Everything's pretty default on that. And like you said, yeah, it's the rainbow. I think it's metallic rainbow filament. No name brand on Amazon. Looks like there's a lot of stridations. Is it just from Harkins? It is because it's at 0.25 millimeters just to speed it up. This one would take like 26 hours or whatnot. It's going to be done better. Yep. It's because it's a low resolution. It's 0.25 instead of 0.2 for the layer height. OK. But it's still very solid. I mean, this thing's like super heavy. It's so heavy. It's heavy. Knocks someone out with this thing. It's so heavy and thick too. Cool. Even with the low infill. And yeah, nice stocking to be stuffed. Yep. So by Dave Pinkstuff, it's on Thingiverse and Thangs. Dave has photos here of some wrapping paper or something. That's a good idea. Like a little wrapping paper. There's a video as well. What's with the video? Any fun stuff in the video? Kind of showing off. Pretty much the same thing I did in Incredible. I was committed to design. Does he say what he uses? I think in his Instagram he does. Warming your winter supplies with this cozy knitted stocking container. Yeah. A regular knit geometry. A rib knit geometry. Oh, look at that. And that's his knitting. Cool. All right, so check that out. Shout out to Dave, he makes his stuff. I think I broke the website. Something happened with the tab. It clicked somewhere. And everybody's posting in the chat. They want a Raspberry Pi laptop. Yes, it is coming. I have a design. I have ready to go. Yeah, but the pies aren't. I don't want to release something where it's like, oh, good luck getting it. We've already done a couple of those. Maybe next year. I'll release it next year when the pies are plentiful. Let's go through the community makes and let everybody go eat lunch. All right, first up, we got a make from Regis. Posted a make of their heat set insert press. So Regis says, good idea. Thanks for your work and sharing. Of course, looks like they're still playing together, but looks like they've got the core parts printed out. So if you're looking to make heat set inserts with threaded brass inserts, you can use this jig. You can build this jig, rather, to make really precise heat set inserts. I struggle with that, but there you go. Did you miss the mini-fighter? Was that from last week? I missed it? Oh, no. No, the mini-fighter is this week. Oh, I just skipped it. Or did I miss it? No, you're right. I did miss it. I don't have it up here. So let me bring it up. Next up, we have the mini-fighter. One of my favorite projects for realsies. Yeah, because it's a lab project. Yeah, music production. I want to use it more. Yeah, it's a great mini-device, modeled after the mini-fighter from DJ Tech Tools. Code was by Liz Clark. She helped develop the design and the code. Very awesome. It's got an on-screen and a joystick. You can change the mapping of the buttons to the different MIDI notes on the fly. Very cool. Here's a photo of it all put together. Here's another photo of it. It's always hard to photograph that OLED, but otherwise. There is their setup with the, I love the Sakai LPK25. Really, really nice. Also a nice audio interface there. Let's read the comments real quick. This project was really fun, and I put it together. Here's what we did. We added a, oh, they built it with their niece. Oh, wow. That's such a great way to build with somebody. We did it a little bit different. We used the USB-B instead of C. We installed it upside down. Whoops, there it is. Makes it on my page. Added rubber feet. This makes it move around less. Rubber feet make the stand and handle fall in use. I ran out of M2 standoffs. Ugly, I know, but that's OK. Range of problem with the code provided. It caused the controller not to work at all. I used Thaunee or the Moo Editor. I don't remember which, but it was a while ago. I highlighted the code that needed attention. What I would do differently, if I were to make another one, I would add banks, basically like an NPC, two to four buttons that could change the notes and the grids all at once. That would be a good, great idea. There is, if they're watching, there is an upgrade to the code by another user. How would you find it? I guess search the A4 blog. Did you have that guide? Well, we don't want to support that, because then we would have to support it. True, true. And we don't really do that, but there is some folks that have made their own versions of the code that allows you to save different patterns and load different patterns. How cool. Very cool. I've showed it on the show before. That's why I'm struggling to remember where the link is, but it's out there on GitHub. You search for it. All right, moving on. My coffee. I had to give that one attention, because I really like that project. Next up, we got swords. Searching out the swords. I actually think I already have them loaded here. So here is the Halo energy sword from the video game series Halo. This was posted by Man Chicken. Man the Chicken. They posted up their make. They said, let's skip the electronics and just print to the bottle. So awesome. Yeah, it looks good. Yeah, it looks great even with electronics. You just have a solid blade. Yeah, that color is perfect. Yeah, it looks really good. So yeah, very cool prop designed by Pedro Wildback. I think that was the first sculpting I did in the fusion. Yeah, look at all these fantastic light painting photos we did. That was really fun. All right, next up we have another sword. This is the Guardian sword from the Zelda Breath of the Wild. When is part two coming out? Next year. Marsurino posted this up. And there's no comments, but just a fantastic photo of it on a deck of some sort. Yeah, looks really good. The colors are very vivid. I like that. Tight, that teal. Yeah, it looks really good, the color. All right, and then we have another Zelda sword. Oh, wow. Same exact sword. This was posted by Reiko. Printed on my JG Aurora A5X in Redline PLA Neon Transparent. So here's two photos from them. One of it finished lit up on a custom holder. Where's that holder at? Next to their whole gaming collection of sorts. Maybe it's a DVD collection. And then here is the parts printed bare. Nice. Good. Very sweet. What can we think that the swords were both posted this week? And then kind of a blast. Remember the fidget spinner phrase of the 2017 or whatever it was? I'm going to laugh when it comes back. So Wisemen posted up their make of the Adafruit fidget spinner. They say it works great. And it's an awesome way to flex to my fellow makers. Any tips on beating the first boss in Breath of the Wild? I don't remember who the first boss is. The first big boss fight. Oh, is it that one of the Ganons? The horse? Oh, the Lionels? Is it? Could be. Yeah, Lionels are really hard. I always struggle with those. And I can have the conversation completely different. When Agent Fruit fidget spinner, how do I beat Heenix? I don't know. I see you guys playing that. And it hits you with this pinky and you're dead. Yeah, there's lots of great things about it. Yep. Your sword's always breaking. Yeah, yeah. What is that funny YouTube video that Gavin watches over and over with Breath of the Wild? It's like all the funny cliches that happen in the video game. Like taking turn extreme. I'm taking a break. I am not running. I'm taking a break. I am now tired. You found new sword. You've broken it. You find it, you break it right away. All right, that's this week's community makes. Shout out to everybody for posting up their makes. I hope everybody is enjoying themselves. And now we have this gif of the Lionel Ball. I know, I keep seeing those. Lionel Ball, that's cool. That's great. That's a great gif. I can just watch that. The string of shows continues in tonight. Oh, sorry, it was a fidget show. Starting off with Show and Tell. Show and Tell Tonight, we invite you to come on, hosted by Liz Clark. Oh, I thought it was us. No, we're just going to be on then hanging out. So shout out to Liz for hosting. I think we'll host next week or maybe Melissa will. We have one of them, yeah. And then John Park is tonight, every Wednesday at 8 p.m. Eastern time. So tune in to John Park. He's got some new products to release or chat about. Lots of segments and more. Like a TVB gone, yes. Yeah, a project we build as well. That's pretty cool. Cool. And then on Friday, we have a deep dive with Tim, a foamy guy. On Mondays, we have the Circuit Python weekly. You can tune in live or catch the archives every Monday at 2 p.m. Eastern time. Product pick of the week on Tuesday with JP every Tuesday at 4 p.m. Eastern time. I forgot what it was like a PC, TCP, I squared C. Oh my god, I was listening to it. Yeah, it was a I squared C expander. Yeah, oh yeah, it's the multiplexer. Yeah, it's a really nice hub. He had a great demo too. And Liz used it in her laser harp. Oh, yes, yes. I want to use it for having multiple nodes. The Stemma soil sensor is going into one. Yeah, that'll be a next year project for sure. Managing multiple planters. Got a bunch of plants coming in today, so I'm going to need it. Look at the arrow pointing at me. I'm wearing red today. Oh yeah, and the emoji is in shock because everything is half off, so definitely tune in live. That's the main part of the show. Yeah. It's like, holy crap, it's only $2? $3? It's a $2 sensor. Five, please. Cool. That's it for the show. We've been running through it. Normally, it takes an hour to do the show, but I guess because the builds are a lot easier. It's the end of the year. We're just talking. I think the iBook one is the last project for this year. We're going to combine the, what did we do this year? We got this holiday tree, but it was designed particularly for the Scorpio board. We don't know if the Scorpio board is going to be released. And if it does get released, we're kind of out of time to start documenting it. This countdown clock is a collab project with Liz and Kathy. I got her the parts, but we're stretched on time. So yeah, it's pretty cool. I guess it could be a Valentine's countdown. It could be a countdown for anything. Countdown for your birthday, countdown for your big move, countdown for whatever. The tree. I don't know what it will be. It'll be a volcano. We spin it. Oh, that's right. We'll say it's a volcano. No, don't say it's a volcano. It's a volcano. Oh, yeah, yeah, yeah. Don't say the. All right. We'll have to figure out how to rethink these projects. It's not a tree. It's something else. It's a traffic cone. Multiplex. Multiplex. All right, cool. Yeah, well, thanks, everybody. Yeah, I'm just bandering. We're just band-shaking. All right, with all that said. Yeah, remember to make it great there, folks. We'll see you tonight on Unshow and Tell. Bye, everybody. Bye.