 another 3D Hangouts. My name is Iwai Rwaz. I'm a designer here at Aderford Jnrmy. Every week is my brother Pedro. Good morning everybody. I'm Pedro. I was creative tech here at Aderford. And every week we're here to share 3D printed projects featuring electronics from Aderford. That's right. This is a show where we combine 3D printing and DIY electronics to make inspirational projects. Hello everybody. We're hanging out in the Discord chat room if you'd like to join us while we're doing the show. You can hit us up on the Discord chat room. Shout out to everybody. It's the morning over here in the East Coast but good evening, good afternoon, all the good things. We'll do some shout outs in just a moment. How's that? Very good. Hello everybody. This is the Discord chat room. Give a shout out to Kappa Coffee, Pedro. Hey Pedro. Bruce, hello Bruce. Zina, Dr. Susan. Jim Hendrickson. Yeah. Hello everybody. And over on the YouTube chat we were hanging out too. Good morning to everybody hanging out. Sky full of stars, micro, or taga. We're also on the Twitch and on Facebook. And morning Alexo Martinez. And I think we're also on the LinkedIn's and I forget the other one. Twitter. Periscope. Oh, periscope, Twitter. Good morning Avro, 52. Hey, 52. Sweet. All right. Let's go ahead and do some housekeeping. All ready? We'll do. Well if you head over to aidoffruit.com slash free, you can see all the free deals that are going on as well supplies last. So the more money you spend, the more kind of freebies you get, right? So for orders that are $99 more, you get the Harma Proto half-size breadboard. For orders that are $149 or more, you get the breadboard plus a randomly selected Stemma QT breakout. If you have an account with aidofruit, we'll make sure that you don't get the same one twice. For orders that are $200 more, you get the Stemma QT breakout. You get the breadboard. That's the half-size from a Proto. And UPS ground shipping is free for continental US only. And then for orders that are $299 or more, you get the free shipping. Stemma QT, Promo Proto, and a circuit playground x brush. So there you go, aidofruit.com slash free. We appreciate everybody getting the freebies. All right, and the other bit is jobs.aidofruit.com. You can check out all the new job listings that are posted. This week we have some new ones. Python web developer, Java web developer, frontend developer, so on. So check it out. It's free to create a profile, whether you're an employee or a maker with some skills, you can create a free profile or create a job posting. So yeah, here we go. For newsletters, there's a once a week newsletter. This one's called the new newsletter. And you can subscribe to this one by clicking over to aidofruit.com slash newsletter. There's daily newsletters, appropriately named, aidofruitdaily.com. It's a standalone website. It's not tied to your account. So if you do want to subscribe to some interesting topics, go to aidofruitdaily.com. You'll see we have Python on hardware. We have 3D printing, biohacking, maker business, and a couple other different ones too. So check those out if you'd like. I think that's everything. Yeah, we're still hanging out in Discord. We've just heard, we've passed the milestone. I don't have the banner, but you'll see it later tonight on Ask the Engineer. 29,000 fellows. Hello, everybody. Thanks for joining the Fruit Discord. A lot of fun, a lot of inspiration and help too. Yeah, there's a ton of different rooms. Everything from help with 3D printing or Circuit Python. It is where we have the live Circuit Python meeting. Oh yeah, it happens every Monday at 2 p.m. Eastern time. So if you want to check in with Circuit Python devs, you can do so by listening in live or checking out the archive after it's posted. Yeah, it's on the left side when you're in that side of Discord, we're all the way down to the voice channel. And you can request to be a Pythonista if you want to join in on the chat. Yep, yep, and yep. Cool. All right, let's go ahead and jump into this week's project. All right, this week's project. It is super handy, super simple. It is a fun house stand. A fun house stand. This is very, very fun. It's a fun house stand. Yeah, so really easy to put this one together. You just got a couple of screws. The Fun House BCB is an IoT kind of based board. It uses the ESP32S2 that's in the back there. And it has a couple of built-in goodies like these two temperature sensors, humidity, barometric and temperature right here. Built-in on-off switch, speaker, three buttons and tons of ports. These are three pin JST connectors, right? Stemma, the big stemma, and a little stemma. So you can do I squared C sensors connected right here. You can daisy chain them. Very cool. This is an extra add-on right here, the little PIR sensor that kind of press fits right into the headers there. Built-in tiny NeoPixel LEDs up here for indicators and stuff. There's some touch buttons. So cap touch buttons six, seven and eight right here. And this demo code here just shows like some of the sensor readings and if you're pushing some of these buttons. So built-in speaker, right? So you can get little beeps and bloops. You get your buttons here. And then the cap touch buttons. And then a super extra bonus is this little slider here that you can use to maybe adjust brightness or something. So if you've got like a light that you wanna change the brightness to, you can do up to what three or four different kind of settings here. Just sliding your finger on this little thing. And there's a really awesome silkscreen bite. The dragon himself, paint your dragon, Philip Berges, he did all the artwork here. And the back there, there's some even more awesome artwork. So this pays homage to a homage, is it homage or homage homage to the Wizard of Oz. There's the witches feet right there. Let me do a quick folky focus. Folky focus. And I like how it has a whole Halloween theme. We've been seeing a lot of the Halfway to Halloween. So it's really a good time for theme-wise for this. I need to watch this movie again. It's been quite some time since I've seen Wizard of Oz. So I need to watch it again. And there's some awesome artwork in the back. I didn't bring my screwdriver, but yeah, I can, we'll show that later, right? Okay, so. What is it? I can go grab it. No, dude, it's fine. Dude, you literally just screws, no worries. So this is the three printed stand. And we'll talk about it in a little bit. So you can download this. If you want to have this propped up on your desk, you just need two screws. I have three here, but you can use two to keep them in here. You can use thumb screws as well, if they're long enough. It's a little bit thicker. So you're going to need an eight millimeter screw, but I have all that listed in the learn guide so you can check that out. It is powered by USB-C. It's got the USB-C connector. And it's just plugged into my computer. And that's pretty much the kind of hands-on demo that I have. This is something that we'll ship with it. It's just like a little demo, fun house test, as it says. And real quick, want to mention that it is in stock. If you have not picked one up, hurry up and go over to the link I posted in the Discord. It is a PID. Oh, I should have had it ready. Yeah, four, nine, eight, five. There you go. Pedro will paste the link. And you can see the back here. It's got that nice little screen and all the little things that you would want to see. So ESP32-S2, circuit Python support, Arduino support. There's some things here. And there's a couple of learn guides too that are out. So you can check out some demo code in circuit Python. Yeah. So heading over to the learn guide. This is where you can grab the STL files or the 3D model the source files if you want to tweak the case. But if every straightforward guide, not much to the assembler than like the screws, but yeah, the fun house is in stock. So that's great. And I guess the CAD page here is you can download STLs, you can download the CAD source file. I have a step file of the CAD source. If you want to like modify the original sketches, you can bring this into any CAD app that has step support, which is most of them. And there's just some details here on like how to get a good print, like using a brim and pretty much using a brim. That's all I got for that one on printing. And I have a little bit of a CAD thing that I can share. We're ready for the CAD. Yeah, step into the CAD. All right, any questions so far on the? Let's see, John Parks in here. Good morning. Hey John, good morning. Is he answering some of the questions on here? Okay, thank you. John's got answers. Let's jump in. All right, let's look at the CAD thing. All right, here we go. Ready, set, go. So this started out as like a really simple stand and we've kind of done this before. I have a labor layer on how to do this but Lamar had a suggestion on it and I was really happy to do it. She's like, why don't you put a brick texture on the stand and she was kind of hesitant. She's like, well, isn't that kind of hard to do? And I remembered the emboss feature is fairly new diffusion and that lets you really easily paste a texture over like a surface. So the next thing I had to do is figure out how to create this brick texture. So I used just single lines to create this kind of texture that I could use a rectangular pattern so I could repeat it. So I came up with these numbers and I came up with this pattern that kind of will encompass the size of the stand and there is a new feature in Fusion called the thin extrude that allows you to extrude single lines. This is a huge deal for me because I use this a lot. Previously you had to use surface extrude and then the thicken command separately but now it's all in one feature and that's like the awesomeness of Fusion is like it combines these features into one which is great. So you have to select the thin extrude and then you can select whatever whether it's a single line or curvature and then you can apply a wall thickness all in one command which is super cool. So after I thickened that up I used some rectangular patterns to just create a bigger texture and using the consistent spacing you can scale this as big as you want and I did use some user parameters but I'm gonna really step into them because you're kind of just numbers, right? So that's all set up. The next thing I need to do is like, all right, I need to project this solid body into its own sketch because the emboss feature uses sketches and it says like, hey, what's a sketch? And then it projects it onto a surface. So once that was made it was fairly easy to select the brick texture because it's just a single profile that looked like the blue selection and then you can tell it, hey, I wanna go on this tangent chain which is like the face that does the whole thing. So in the emboss feature you can play around with whether you want it to be a cut or an extrude and there's some built-in offsets for the alignment and you can see that corner there. I had to make sure that I like adjusted it so that like some of my geometry didn't get chewed up because certainly it can happen. So it's nice that you can have some built-in offset alignments in the emboss feature. And then of course you can tell how deep of a cut you are or how much of an extrude you want. But once that was done I kind of had to do another emboss feature because like one surface, one feature. So this is the back surface. So I was able to reuse the same sketch. So that's really nice. You can use the same sketch even though it's like offset plane you can still use that sketch on a different surface. So that's kind of nice. And I had to do some other alignment offsets but it ended up looking nicer because it's like not chopping up the top of the bottom so it ended up working up pretty well. But that's really the two features that made this possible is like thin extrude and the emboss feature. So that's really cool. And just to kind of give it some more depth and detail I use the chamfer tool to the chamfer all 99 faces. But here's the tip. Instead of selecting every single face which is what I did you can use the filter select and the filter selections under the select window. You can say, Hey, I just want to select faces because that's what we need to select. You don't have to select edges. You can select the face and usually figure, Oh, there's four edges. Let me go ahead and chamfer that. And then you can use instead of like the select tool you can use the paint select tool. You've used the paint select tool and like Photoshop or something. And you can just select all those to kind of do a hundred different selections. So that's kind of like a quick walkthrough of the stand. Then I added some holes with some chamfered edges and the thing prints on its side to avoid any support material or anything. And I guess it's a really nice brick texture. I like it. So check that out. I'll probably do a little bit there on this one to kind of step through a little bit more of the features but yeah, that's kind of what it is. So, cool. So this filament is not all gold PLA is created equally. This is like some super fancy ultra silk gold that's PLA. Look at that shine. Are you kidding me? There's no, this is fresh off the printer. No supports, no zits and stuff. It's great. This was even time lapse, right? Normally it would be like a lot of string and stuff but it works out really well. So the filament here, you can pick this stuff up from Amazon, this is where we got it. It's from early one, ultra silk PLA. It's a 175 millimeter diameter filament. It's a kilogram and it's got more of like a orange tone to it. It's really nice stuff for 25 bucks for a kilogram. It's pretty nice and a couple of folks have some photos of it. Here's a Mario question block and the star. Really, really nice prints. In our experience it worked pretty well. Didn't clog anything and the part seems to be good. So this is the filament. I also have it linked in the learn guide if folks want to pick that up. Yeah, some silky ultra silk gold. There we go. We have a lot of issues with what's going on. You're a little over modulated. Oh no. Just a tiny bit. I can fix that right now. I think. Hello. Hello. Hey, what's up folks? Is it too much? Not your good. Hey, what's up folks? Okay. Hey, what's up folks? I'll try to talk, not so loud. Cool. Well, that is the stand. And a nice little mini layer by layer. Thanks. A little mini layer by layer, for sure. All right, so all of the files for this is available right now. Yeah, it's on the learn guide. The learn guide went up last night so folks can check that out. I had it open. There it is. There it is. I also put it on Thingiverse. You can find it. But yay, yay, yay, yay. We also have a 3D model of the fun house. So I had that before, but then swept it out. Cool, kind of simple, but I really like that the brick texture is really what made this. Otherwise it was just like, oh, it's just another stand. So Shannon's a Lamar for her creativity. I was kind of hitting a roadblock here. A road. And John was correct that it's not a layer by layer, it is a brick by brick. Yeah, yeah, yeah. She had to build a brick by brick, that's funny. So yay, bricks. All right, cool. And I think you already covered everything in the learn guide, the second page. Just some of the things for the printing. Yeah. I think the brim. It should be printed, it's oriented to print as is so it should show up on its side, that's normal. Don't need any supports. We like to use 220 on our extruder. You don't have to, you can do it. That's like what we like to use. Yeah, we saw some of the complaints on the review for the filament. But yeah, the layer bonding, you got to use at least 220. Yeah, sometimes when you print hotter, it kind of anneals the PLA a little bit. So it makes it kind of stiffer and tougher. And then when it comes to build plate adhesion, this one, because it's got not so much surface area touching the bed at a brim, you can enable the brim. Some slicers are a little bit different, but with Cura you can say how many line counts. I think eight's a good number. Or two millimeters. The first one we did, I had it at six and that just wasn't enough. I've lifted a little bit, so if you have any misalignment with your mounting holes, that's probably what happened. Oh, that is what happened, yeah. Like the holes didn't end up, it just was not, it started curling up, so brim is your buddy. Brim, buddy. And a reminder that a bunch of these files are also available on the GitHub if you star this section here, you'll always see every time a new board of model is updated. You had a couple this week, you had the Feather RP-2040. The Feather RP-2040, of course, the Funhouse. Yeah, I don't have the Funhouse, but I also have the Itsy Bitsy RP-2040. The QT Pie RP-2040. We have the Trio, the triage. I don't have a Pico because it's like, we didn't make that. But we got the three, right? Cool, and y'all can get that from, like I just said, the eight of fruit cad parts GitHub repo, the way you search through it is either through the PID or just search for the product name. So like Funhouse is right here. And now there's also a GIF, hard GIF. Excuse my lack of frames per second. Like two frames a second. Trust me, it's smooth. So I also got the Neo Trinky, which has a fun render here with the CapTouch bits. I'm getting lost of where I'm putting all the links. Yeah, I'll link it up. Links, links, links. So we'll do another project for this next week. I think one of the door sensors, I think just adding on top of some of the projects that John and Melissa have done, just like it amounts for, I think you want to do a quick walkthrough of adding some Python on the board. Yeah, I guess we can. I'm not super set up, but let's see what I can do here. Have my Funhouse. I guess we're just gonna have to do it all like manually. All right, so let's install CircuitPython on our board. You can follow along with the Learn Guide, which is public now. Just head over to the Learn Guide. Here's how you install CircuitPython. This link here will take you directly to it, I hope. Yay, so CircuitPython, the latest version right now is of this recording 6.2. And down the U of two, there's also a bin file. That's like an earlier version, I think, but I'm gonna get the U of two. And there is a little bit of a, you're probably used to the double tap reset. If it doesn't work, you kind of have to time it a little bit different, so watch how I do it. One, two, I don't know, I think it worked. There you go. It should give me a, no, it didn't work. Oops, let me do it again. Like I said, you gotta do it maybe once or twice, because it's the ESP 32, there we go. I got it that time. Oh no, I hit reset again, sorry. Yep, we're in for an awesome thing. No, I like it, so people can see that. It will take a couple tries. It's just, I don't know what happened to me, but there he goes, so it's got this nice graphic. It lets you know, hey, you need to drop the U of two file onto your USB drive, it's called House Boot. House Boots, that's great. So I got here the U of two that I downloaded. I will switch my camera over to full screen and then you'll see I have the U of two file and then this House Boot right here. I'm just gonna drop that there. House Boot, it's gonna install circuit Python. Just copies over and you can take out this firework show going on here. Love that, great indicators on this in your pixels. It's copying and I already have, I think, nope, it wiped it, it's all good. Did it wipe it? It's connected to, oh cool, it saved all of my, that's what's really great about this U of two boat loader. You can easily switch between circuit Python and Arduino and all of your circuit Python files. Staying nice and safe. The camera though, it's nice and fun. It's like dancing with me. So this is basically John's door alarm. Code, and I've just added some bitmaps here to show it's running. So the idea is you have one of these magnetic switch sensors. Two wires here, and then this is a three JST connector with the power cut off. So just ground and signal. Let's plug it into OOA1, I think. Make sure that it's keyed, so it goes in this way. Cool, let's see if it works. Cool, so this is supposed to be a little door alarm, but instead of a door, we're gonna put on a gate, a baby gate. So I'm gonna open the gate, hop, it's open. Oh no, it gave us a beep, it gives us red LEDs, and it even gives us a graphic says it's open. That's bad, because the baby can get through and fall down the stairs. So let's close it, close, it even gives you a little beep, and it says it's closed, and it's changed to green. Should probably put a baby gif on there. Yeah, I was thinking about that, but I wanted to generalize it, so it's not like four babies only. A crying baby, and a happy baby. And then this is giving, what would you say? Adafruit IO? Yeah, this is tied in with Adafruit IO. Give me a second while I log in. Oh boy, gotta do my two step code. I'm getting sick, folks. Pedro, entertaining the ground. Yeah, just looking at the comments here. Tell them a joke. You know what joke Pedro, what is a stack of Python files? Dang it, ah, I knew this one, I completely forgot. A pile. There you go, there you go. All right, so we're now inside of Adafruit IO, here's my dashboard, so you can create a dashboard, I call it the FunhouseDoralArt alert, and it tells me the status, so let's go ahead and do a live demo again. Open, give it a second, and there it is, two seconds later. We gotta close, let me close it again. Just a little bit of a- That's pretty quick. That's pretty good, right? You could do email triggers as well, JP shows you how to set that up in the learn guide, so check it out. Nice visual there of JP's comment on a baby getting away, car peeling off, drive away, see you suckas. Missing of the baby from Who Framed Roger Rabbit. Oh yeah, he's got like a cigar. So here's the other guides. What do you know, it's all full of Funhouse guides. It's fun. Oh yeah, JP's mail slot just came out too, so you can check that one out. Melissa has like a more generalized, like how to create Funhouse projects, so exploring the library for it, and circuit Python. Here it is, there's the door arm, with email notification, so check it out. Oh yeah, we have these magnetic contacts, which is in stock as well, so if you wanna pick up the Perif, the paraphernalia after this, you can do so. Yeah, like if you wanna have it plugged into the wall, we got these little five volt two amp power supplies. That's cool. Baby's just skipping. Yeah, perfect timing since he's getting strong enough to just lift the gate. To get a metal gate. Go. All right, posting all the links to these guides here. Whoa, wrong link, oh my God. Nobody has any gold like memes or anything? Hold on, posting links. What's the one, PT had a reoccurring gold meme, I forget it was, it was like Austin Powers or something. I love gold, the silky gold. I think that's pretty much it. Cool, we have some Canadian makes and, I mean a prototype, so let's head over to prototype. Let's go ahead and jump into this week's prototype. Title, I am there you go. All right, so refining the Trinkie case. Lamar had some suggestions on, make it a little bit more of the outline of the little jellyfish character that he's portrayed as. And last week I had taken the conductive filament off, and still wanted to have the ability to be able to push the cap touch buttons on the top and the bottom as well as the both sides. So figured out how to actually have the conductive filament just pressed in there. So if you wanted to, you could just have just the cap touch pads. So what this is doing is being able to sort of route your touch. It expands the service area. Space, yeah, to the top. It's more accessible, right? Yeah, a little bit more accessible, and that little bit of bump makes it a little bit more easier to touch too. And I wanted to make sure that the redesign case where we had removed that, I wanted to be able to add the back on because we do have the conductive filament in the store. We do, let's take a look. So this stuff is from Pro to Pasta. And I, yeah, don't need that. Don't need that. I forget what the resistance on it is, but it's got a high conductivity. I think it's in the data sheet somewhere. And it's low enough to where we can build a little battery tester like you see there in one of the guides. Don't need a heated bed plate, so very handy for all types of different printers. Yeah, it's pretty much whatever PLA profile you have should work okay. We did a couple of tests doing dual extruded prints, but not everybody has a dual nozzle printer. So these parts simply just press fit on like that. It's a teeny tiny little part. They're optional. Yeah, not needed. Whether you want them or not, you don't need them, but it's cool that the case has. Accommodates. Yeah, it comes with the spacing for it. So these pop off like so, and you still have access to just the backside and the front side of that. But if you want to add the ability to be able to touch from the top here. Yeah, I can see how it's a little awkward to touch the small little pad. So this just gives it more service area, expands it. And another great update is that the handle, the little tab handle is this round shape as opposed to like the square handle. Kind of swing it around there. And it's a bigger loop, so you can use giant lanyards, like the very fun ones that we have, the sort of Python themed print ones. Yeah, then you have your little built in button here. So you can use that as the, for resetting. Reset, yeah. There you go. And then this is a USB extension. Yeah. It's plugged into the laptop or the battery. So just a couple of the other things I added on here, it's just little walls in here so that if you're looking at it, you know, from the top, it's not blinding you. You have this nice diffusion going on. Yeah. Turn on the light. Bring this a little bit. Cool. So what you can use this as is a, one of the things that John did was add, have it be a trigger for a camera. And then something in the comments was asking if you could just solder to the touch pads, I think it would be safe too. But that gave me the idea of milling out a PCB where you could just like insert this into something to sort of route out the touch pads. So. Or you could just copper tape. That would be easier. I don't know what their product is. Maybe copper tape is the way to do it. The copper tape has like an adhesive that's also conductive, so you could try that out. You can make your own traces or like have it on a creak cut, like vinyl printer. That's super fancy. And like a lot of some little traces that way. So tons of stuff that you can do to sort of reroute these two buttons out. Paint conductive, paint might be another option. Or of course, go the three printing route. Well, none of them's there. Yeah. So release this next week. True. It's pretty final. Yeah, that's good. And one of the other things, just a recap from last week, the mechanical, how it's staying on here doesn't slide off. It's this teeny tiny little guy in here that is getting inserted into the slot to keep it in place. There you go. It doesn't slide out. Yeah. And all of your caps and all that is protected on the inside there. And then filament-wise, this isn't really white filament. It's called like natural clear PLA. Yeah, that's what's giving you that nice diffusion. Yeah, notice that some of the whites, the pigment on there doesn't let it diffuse as nice. So go for the natural or clear. Yeah, because the clear is really clear. It doesn't have like the... It's like translucent. It'll make the diffusion a little bit sharper. This softens it up. Spreads it out, evens it out. Diffuses it. And that is what we're prototyping. Yeah, it's a little tricky. Tricky with a handle. And I wanna go over to the new page just to promote hopefully they're still in stock. The other Trink keys were released in the afternoon yesterday. Loading. Scroll down, we got some nubbins there. A little kitty beans, toe beans. Yeah. And here we go, the Trink key USB mechanical switch and the rotary encoder. I saw someone model up one of the rotary encoders, different brand, but same sort of concept where it's a nice enclosure for that. True. And that's the catart. Hey, it went up. Sweet. And that's what we got for prototyping. Yay. All right. Are we ready for... Community makes. Community makes. All right, let's do it. So this week, Community makes every Tuesday. We do a little time lapse video, print something from the community. And this time it is a gear box. This thing is so cool. Super surprised that all the tolerances came out as well as they did, especially with a time lapse because of the way that the head moves out of the way actually leaves a little bit of stringing left behind that can interfere with the mechanical, like all the parts that are joined together, like fuse them. And the trick that I used to get those super smooth was just adding a bit of real butter, which is like lubricant that is used like in roller blades and skateboards. Ball bearings for sure. Ball bearings, yeah. So just a little bit, and a little drop on all of the gears and then on the inside of the case. So it's so cool where it locks these little extension parts here, lock onto the case so it's not able to come out, twist it and let's you open it. Super cool. Yeah, all the gears are kind of hidden inside. So mesmerizing on having all those. Oh, but yeah, the real butter is like a little drop. And we've done that before, wherever you need to lubricate some friction, get rid of some friction on some PLA. Turns out it works pretty well. Yeah, so let's do with this, since it is the glitter PLA, it can't be a little bit rough. So, yeah, of course. So it definitely helps out. And have it, oh my God, look at that. So buttery smooth. And the same thing with inserting this back into the, having the lid go back onto the box. So it's pretty, yeah, it's pretty big. So you can, you know, store a couple of boards in there. But of course the whole appeal is having all these gears. All the same at once. I'm going to say the real butter is probably for like a fishing line, like a fishing reel. Yeah, I think that's why the reel, it's real. Not that real, other reel. Reel it in. Cool, so that's a really cool design by Filippo. Filippo has this up on colds 3D. Check out colds 3D and it's a version too, apparently. Yeah, and we're checking not a free print. It's only $1.50, definitely worth the modeling effort. That went into that. And he goes, as AF Inventions, I'm going to check out some of the other work. Filippo. So on Instagram as well, we're going to follow some of his awesome designs. So definitely check that out. It's really cool, community make. Got a couple more. All right, a couple more. Came through on the Twitter. This one's from Fabio Fernandes. Posted up a harness brackets for the RGB matrix from the Adabox. So he's got a thingiverse post of it. So you can check it out if you want to make some brackets for your Adabox. This is the 64 by 32 RGB LED matrix, six millimeter pitch. It came with the Adabox, I think, I'm sure. Now you can print these out. So cool. Thank you, Fabio, for posting this up. And we got another one. This is a bit of a remix. The files were posted, but it was cool to see this as a remix. So thingiverse user here, Fetty Serio, posted up a remix of our 16 by 16 Neopixel square display. But instead of using a feather, he used a Pico. That's brilliant. Look, there's your Pico, and it looks like the Pico is fitted into this Perf board. And I think you just maybe didn't remix it. You just drilled it into the PCB. Oh, well, that's even better. Like for good modeling, you just drill some holes in your Perf board. That's great. And it works out in the same way. And look at that. Very cool. So sweet. And it's using a Serger Python, so that's great. And he added some feet. Okay, cool. Excellent. Well, shout out to Fetty on posting out the remix of the 16 by 16. It's great. A lot of folks seem to dig it on the thingiverse's. Very nice. And then we have one last one. This little came in in the morning about two minutes ago. This is a little squirtle remix of Flowalistics low polygon squirtle. We remixed it again and made it a a verno-y excellent test on retraction for your pen to the other refresh. The photos will show up. Yeah, better photo. We printed this. You can print this in an FDM PLA and it works pretty good. We've also printed it in Resin, which is like, oh my gosh. It's crazy. I had it like this small, remember? It was like super tiny. So very cool. Yeah, we printed it in 100 microns on a Prusa. Excellent. So those are the sweets community makes that were sent to us this week. I appreciate everybody sending their stuff. And if folks want to share the stuff, you can tag us on any of the social channels whether it's Adafruit or just me or Pedro individually. Yep, all the handles are up there and we might make a time lapse out of it. Cool, that's the goal. All right, I think that's it unless we have some time for shop talk stuff. I don't know what to shop talk. The panels, I think, it fall via. It looks like, what kind of question about vernoi? It's a, what is vernoi, right? Um, I don't explain it. It's like a texture that is applied to a surface. Okay, is it a texture? Is it a math equation or is it a style of thing? Math equation style, I mean the- All these things, yeah. It's like the texture that you see. Oh boy, I don't know my vernoi history. Like is it- Pull up Wikipedia. Yeah, certainly you can search for the term. And maybe it's a fellow's name who came up with this visual technique or maybe it's a math equation. Yeah. Oh, thank you, quick question. Since we have all the lawn mowers noise going on, Bruce is asking, the kitchen remodeling. Yeah, everything's going along. All the electrical outlets were done last week. Correct. It was like over 30 outlets that were either added, modified or like moved around. Yeah, our island is shaping up, all the drywalls installed. The heating and texturing is probably following up. That is right now going on, yeah. We still have cabinets to wait on. Yeah, cabinets, we have the marble coming in. Good invention. Yeah, the double oven is coming in. There's so many moving pieces. It's insane. Shout out to John, he posted a wiki- Oh, there you go. To the vernoi diagram. Portion planes, region plus each other given a set of objects, yeah. So, mathematical equation that have these textures. Yeah, you might see it, you might have seen this without knowing what the effector where it originated from. And there is a layer by layer on how to add these. If we can quickly look that up. Yeah, there's probably a mesh mixer tutorial. That's exactly what it is. A couple of years ago, yeah. Layer by layer, how to a vernoi. Free piece of software called, I think it's still free mesh mixer. Yeah, it's still available. And it lets you decimate and tweak the. There's a couple of steps you have to do to get your model ready. Yeah, so here it, oh, that is the wrong link. Nobody clicked that link. It won't take you to that. Yeah, you have to be logged in. Here you go. So here's a vernoi, yeah. Most objects can have the. I'm announcing it wrong, is it Verani? I think it is. Verani, I've heard Lamar say Verani. If I say vernoi, I think I've heard. Like if you have the Mac text to speech, it's probably Verani. Y'all want to do that? We have time. Just kidding. All right, so tonight are we ready to. Yeah, yeah, close it up. All right, folks, we're closing it up. Tonight I invite you to show and tell. Because we're hosting. So we're going to see you there. Yep, special guest, Sherry Haas. Co-founder of Maker Faire. So I think she'll be showing off some cool music maker projects. Music festival coming up. See more stuff. Cool, we'll see if, I don't know, is Maker Faire still going on? Like, can they make it this year? We'll see, we'll ask, we'll find out. Tune in to find out. Yeah, so we invite you to come in. 7.30 PM ET, we have a blog post out too. It goes out, but the way to join is you'll come in here in this chat, in the live broadcast chat room and Discord and I'll paste the StreamYard link so folks can come in. Yeah, so that's how we'll do it. And then shortly after Lamar and Phil we'll be doing Ask Engineer tonight at 8 PM. Will they be in the office? Are they gonna be in the office? Maybe, you have to tune in to find out. Yes, please do. All right, and then tomorrow, J.P.'s workshop every Thursday at 4 PM Eastern time. Fridays with a deep dive with Scott at 2 PM Pacific time, 5 PM Eastern time. And then it starts back up again on Sundays with from the desk of Lady Aida. This week was a fun zippy iPod-like rotary encoder that I'm obsessed with. And then Tuesday was, well, sorry, Monday was the meeting as we could fight on. It's too many shows. Too many shows every day of every show. And then J.P.'s product pick of the week on Tuesdays. Tune in every week to get what is like 50% off on his pick of the week. It'll make you go like this, huh? Cool. And then now we do this show on Wednesdays. We used to do it on Thursdays many years ago, but I don't like to date myself. So we'll do this tonight. And that's the whole week of shows and videos posted every single day by Colin Cunningham with Colin's lab notes. I need a slide for Colin. I know, we need a note for that. Yeah. And then all the past projects are also posted every single day. So don't be tuned into any of the social channels on there for any projects you might have missed. Excellent. Well, thank you everybody for joining us. I hope you're inspired to keep going and do some stuff. And don't forget to make a great day. Bye, folks. See you later tonight.