 We have some cables. Yeah you actually wanted us to carry some USB extension cables because you were like this thing isn't far enough away because you have a USB thing over here and you want over there so you have two lengths of it's really very plain it's a USB extension cable but like when you need one you really want one I like how slim and straightforward these are they're good quality they have all the pins connected through both ways so you reverse it one meter and two meter all right next up next up we have a 18 pin FPC cable I got these because we're actually going to be doing some more stuff with iSpy which is why the code is iSpy so these cables would be useful for our boards that are coming out again there's a silicon and TFT shortage the cables came before the rest of the parts did but I can just show on the overhead this is actually using a DF robot board because they have a connector that I'm dubbing iSpy I don't know if they have a name for their connector it's a feather shaped board it looks like it's a very feather shaped board it's not quite feather and iSpy is not quite compatible with their thing either but this is you know iSpy is this SPI connector that we're going to put on our TFT displays and then when you have a board that has the same FPC connector you can match them up and now you have a you know remotely connectable display without all that wiring that normally you have to do with all the header pins and so we have this in both a hundred millimeter and 200 millimeter flex cable and they in there's some metrics it's kind of nice you can use either way okay and then next up the star of the show besides you Lady Aida and all of Aida Fruit team the community the customers everyone in chat tonight is yay AT Tiny 817 breakout okay so this is a kind of an interest it's a three-in-one board really so first up it's a development platform for the AT Tiny 817 it says 8x7 because one day I might have a different chip but it's the 817 on there right now which is the kind of second or third-gen AVR chips from microchips so you know people know the at mega 328 you know famous the at mega 8 the original chip one of the original chips are the AT Tiny 85 well you know there was a kind of a revision to that silicon to come up with the like a teeny AVR mega AVR series I don't know exactly the name of them but it's kind of a redo a lot of it is very compatible but they've added some more hardware functionality like for example a capacitive touch natively and single wire debug and some good peripherals I like the peripherals are a little bit more flexible as well more pinmuxing capabilities for all the all the peripherals like this has two I squared C ports right which normally you would not get on a 50 cent part but more importantly you know the originally we were using the SAM DO9 for a lot of our seesaw and and stomach QT boards Sam B of O9 is getting quite hard to get and I don't know if I'm gonna be able to get a lot of them for the next year and so I thought let's revise our boards instead of using the three volt Sam DO9 Cortex M0 the AT Tiny 817 is a quite powerful board it's 20 megahertz it's got 8k a flash I think a half k a ram a little bit of e-prom e-prom is quite nice and it runs from three or five volts just kind of sweet as a lot of bunch of peripherals it's very inexpensive so this is a dev board to help me use that chip another nice thing lots of analog digital converter pins a lot of PWM pins more than the same day the same day I think only had four analog digital inputs I think mucked into the ADC and this one has like nine and it's got a lot of PWMs too so it's got like a lot more flexibility I think on the pinout second it is a seesaw development board so we're gonna shipping this with seesaw which is our I squared C to whatever protocol so you can do PWM and analog inputs it doesn't have a DAC it does have a Neopixel driver which I'll show the demo for like I said PWM outputs you can access the e-prom you can change the I squared C address but what it's really useful for is you know a lot of times you're like I want to connect like a rotary encoder to I squared C or I want to catch a rotary encoder to something and that's something that requires a rotary encoder or Neopixels requires timing specific data that you really want to sub-processor it out and so this is our kind of our sub-processor co-processor helper that runs over I squared C and in addition it's also got a stem and QT connectors on each end so you can use it as an I squared C breakout you can use it if you want basically a chip that can control a lot of GPIO and Neopixels and PWMs this board will do the trick so let's do a demo let's do a demo this is real so here I've got it connected up to a QT PI board or one of our easy to use because it's got a stomach QT connector so it's just I squared C power ground did a clock and it's going to that board and this is actually you know again this is right out of the box this is the firm where it comes with it you can wire it up to Neopixels on any pan that can control up to 60 Neopixels and then over here this is sending I squared C commands to here to drive the Neopixels so QT PI obviously could drive Neopixels on its own but what if this was a Raspberry PI or it can be a computer and you have a USB to I squared C adapter or it can be you know a onion PI or whatever something that can't drive Neopixels or doesn't want to you want to offload all that bit-banging stuff to a co-processor this boards a couple bucks and takes commands of I squared C and does all that work for you it can also do ordering coders and PWM and analog inputs so all these things that are hard for embedded Linux or computer or some microcontrollers to do you can now offload it so very similar to our Sam D09 board but now with the 80 tiny 817 we'll probably also do an 8x6 board as well the 817 is quite nice because not only does it have all these GPIO and one wire program debug using UPDI but it also has an internal oscillator so you can change the speed again it can do three or five volts unlike the Sam D09 and it has Harbor multiply so I have some ideas for audio input as well okay and that is this week's new products