 All right, first up. Okay, we've got a couple accessories this week. This is a WFL slash IPX3 slash MHF3 to RP-SMA adapter. We have our handy ESP32 Feather with a WFL connector, not WFL, it's smaller. And this little adapter has an RP-SMA connector at the end, because that's what's used for almost all Wi-Fi adapters, sorry, Wi-Fi antennas. Check your antenna, make sure it's got the right polarity. Usually it's this way, and then this is the other side. It looks like UFL, but it's not UFL. It's WFL. So let me show... WFL, that's my favorite radio station. I know. Let's look at the, look at this on the overhead. Hold on, let me just focus walk. Okay, so this is the board and, you know, there's no on-board antenna. Instead, there's this little connector, but you want to maybe have it in a box and have an external, you know, standard 2 to 5 dbi antenna. This will do the job, and then this is panel mountable. So this is great for adding a very good antenna, any kind of size antenna you want to the Feather ESP32. You know, you want something Wi-Fi and you want it to go a couple miles. Just get a really big antenna. You're good to go. All right, next up... Next up, we've got the Alps EC11J SMD potentiometer, sorry, rotary encoder. Look at it. It looks like potentiometer, but it's not. So rotary encoder. It's all SMT. It's got 30 detents per rotation. It is detenti. Got a D-shaft on there. And it's also got the button press. So it's kind of like an all-in-one rotary encoder. It's about the price of a rotary encoder, but what's nice is it's fully surface mount. Now, it's not going to be as mechanically strong as a through-hole rotary encoder, and especially if you're doing a ton of twisting. But that said, there are some situations where you just, you really need to use a surface mount process for this, or you have something on the other side and you can't have through-hole pads going through. This does have really big pads on the bottom. You can see there's basically one, two, three, four corner pads and then two side pads that are really chunky. Put a ton of pace down there and connect it to a big ground plane, and there's also a locating dot as well to help keep it in place. You'll be able to have a surface mount rotary encoder. I thought this would be a fun, probably useful for somebody type product. Stars of the show-ish, because you know that was a code, tonight was a probe clip. Are these? These are some probe clips. I thought these would be handy for, you know, you're programming a board, you don't, I'm always like holding like the, I'm holding like these extra long headers on or wires on, and it's kind of tough, but you don't want to solder to it for some reason. So these probe clips, there's two kinds. So start at the beginning and we'll just talk about this one. So this is a six-pin long, 0.1 inch spacing. So this is kind of what you're going to probably use for a lot of microcontroller boards or dev boards where they just put the programming pins in a row. The depth of the board can be one inch or so from the Pogo pins, and then they come to the top into the Pogo pin sockets that you can then just plug in. Yeah, you can plug in any socket header into. So I just showed this with like a breakout board. You have your breakout, you're like, I don't really want to solder this. You clip on, it gives you a really good grip, and then you just plug wires. You can solder wires onto this, and when you're done, you're done. And if you design your board with this in mind, you put the headers on the edge, you know, or one inch away from the edge, you can just clip on program. You may not even need to have a jig for programming. You can just use this instead. The second version. Yeah, let's go to that. The second version is a 0.05 inch spacing two by five. So this is like what I call SWD pinout spacing or JTAG spacing. So this is finer pitch, but you know, a lot of boards already have this pinout on them. So you may be able to take advantage of it and also some people like to leave the pads in so folks can solder in a through hole SWD connector. It also gives you about an inch from the edge of the PCB. And then instead of, you know, obviously you can't just plug in, you know, the pins do come up, but you can't really easily plug to them. So what it does instead is it has a separate two by 5.1 inch header spacing that you can plug wires into to connect to your JTAG programmer. So this is an example like here. I've got these pads. This is an ideal, you know, you should probably use through hole pads, not surface mount pads, but you know, you can actually get it to line up and touch the two by five and hold on. I'll get it to line up. There you go. Get it to line up without soldering on and then connect wires to these headers. If you want to say program this STM32F405 over SWD and then, you know, you just use the right angle USB cable. I mean, of course, I designed this board before the clip. If I was doing it again, I would do it from, you know, the right hand side. So I just clip in like that. But, you know, still this was this will work fine for many boards. You can see about one inch of depth of feather is about 0.9 inches. So that's how far you can go into the depth of the PCB and still clip on. Okay. Clippy, clippy. That is new products.