 New, new, new. New, new, new, new. New, new, new. New, new, new, new. New, new, new. Alrighty. This is the 3Di, so it's a stereo camera attended for industrial and prototyping uses. Okay, next up. Next up is an update. It's a Stemi-Qtification of our popular DRV 2605L. This is a really great video that photo got because it shows it's actually going through all there's like pre-programmed 250 plus ish that you know click and tap and buzz and strong buzz and medium buzz will pre-programmed designed for vibration motors also works with ERMs although I don't own any it's an asthmacutified you still need to solder or connect on the vibration motor but for haptic stuff you can just plug-and-play you know connected it with asthmacut like so and buzz away also you can always strip the wires and probably just twist them on it might work okay temporarily but I do like this little haptic driver it's inexpensive and you know if you want to drive these little vibration motors you don't necessarily want to get like a full H bridge going and like program in all the different ticks and styles and shapes it does a very good job of making a haptic interface everybody wants to make that project where you make a belt and it buzzes based on what direction you're going now you can just plug-and-play all of them together yes okay next we got an assortment this moment so I actually got this for me and then I was like you know what other people probably want this too so this is a collection of like 25 different buttons and you get 10 pieces of each so I think that's just enough that you can like make trouble but it's a mix of different sizes different stems they're all kind of like standard buttons so you will be able to get more of these I'll try to find them matching did you kill it yeah so for example here is a sort of standard through-hole 12 millimeter by 12 millimeter tactile switch so this is your standard flat top and but then also we have the SMT version so same thing but surface mount so there's a mix of surface mount and through hole maybe you're like well I like that 12 millimeter button but I really want a tall stem this one has like a 5 millimeter stem something like that maybe six sorry 10 millimeter stem or maybe you're like well I want one with a cap so you can add a nice button cap on the top this is the version with a cap stem there is a bunch of the you know six by six millimeter tactile switches so this is your standard six by six by five this is a six by six by four point three that the height of the actuator is a common thing you have to tweak and they're always available in different sizes so a little bit more flat like the five but maybe people want the six there's the right angle version so this is a six by six right angle style so uses a slightly different pinout so watch out for that let me see if I have other six millimeter we have six millimeter flat SMT I like this kind of button I remember seeing it first on the Arduino Uno so same size but SMT version there's also one that is that boxy shape but also SMT sometimes we use these when you need a little bit height there is the two pin right angle through hole six by six millimeter so it's kind of like I've actually never used these it's a little funky because it's right angle but doesn't have that extra set of two pins for mechanical strength so it's just a two pin but flat this still may be useful let's see we've got another one this is oh this is a four four point five so these are cute sometimes you see like oh my god it's a six by six millimeter tactile switch but it's tiny it's a small version so it's so cute four point five by four point five oh here's a two pin six by six again a little bit weird you don't see these are very often but very breadboard friendly no wonder which pins are connected to inside together these are very easy to understand so these are good for repairs as well as of course designing new products and then there's like a bunch of other small switches these are let me be less common right angle four point five by four point five you know these are pretty common we've seen three three millimeter by six millimeter SMT right angle we use this the style lot no right angle designs SMT right angle three by six so it has little holes in the bottom you have to punch in to give it mechanical strength there's the right angle three by six with a lot of mechanical support on the back there is the tinier three by six the slimmer style these are very very cute and fashionable the taller three by six I know there's so many buttons huh so this is a taller style we I think we use this style on our PI TFT and then a bunch of small flat oh wait there's one more three by six this is a oh it's a it's a smaller actuator so it's only the four point three height not full five and a lot of tiny little tactile switches right angle flat tactiles like we use these on the cutie pie these have a slightly bigger actuator that's kind of nice these are ultra flats these are like sometimes called dome switches this is you know I don't know what this one is called but I see you know spark fun really likes using these little metal buttons with the gold plate they're four by four millimeters here's this ultra small flat one as well so you get all those 25 different buttons 10 of each great for prototyping repair or if you're like how big is a button that's 12 by 12 millimeters well now you know all right let's keep going okay next up my goodness is this motorized pot I've always loved motorized pots you see them on fancy AV equipment you know you can load a setting and all the potentiometers will slide into the location that you had pretty much it's pretty much the coolest thing and maybe the reason why many people go into music production to dislike it is it's like if you have music but if you're a music producer like should I go to the overhead now yeah it's not the overhead because I really have to show off so I have this I know it's excited it always has like a different feeling to it than other things that move it's like it's alive it's definitely alive so this demo is I just got my feather and motor wings so this is a 5 volt to 10 volt motor you do need an H bridge to control it because going left and right basically is inverting the polarity of the motor connects so you need a full H bridge but we have many in the store when you can you know it can make a move to left to the right and then when you don't have a voltage you can move it wherever you want and then you would read the potentiometer signal off the bottom here and it would tell you where you are so so here's how it works like let's say you're like oh I want it to be in the middle which this isn't going to do because I have this pre-programmed you would set it to the middle and then you tell your microcontroller or microcomputer hey read this resistance so it was the analog voltage and then it would if you want to recreate that it would move the motor left or right until the reading matched up and it would stop and then it would release it so that you could of course tweak it after it's been set so the motor and the potentiometer are separated it's not smart it's not like you tell it there's no way to tell it like oh if I give you half the voltage it'll go to the middle the the motor either is on or off pulls it all the way to the left all the way to the right that's all it knows the positioning control has to be done separately and then this is the slider note it's metal there is one pad here I don't know which one exactly but it's in the data sheet that's mechanically or electrically connected you can use as a capacitive touch detector so you would know if somebody is touching it so you can release the motor this has everything it does have everything so we're probably using a project but I wanted to get some of these in stock so you can do some cool audio projects with it all right and the star of the show tonight besides you Lady Aida our team at Aida for our community our customers and everyone who keeps this going is the LSM 6DS 3 plus list 3 MDL this is a 9-doff sensor using two great ST sensors we used to stock one which had the LSM 6DS 33 but the DS 33 was in short supply and then during the ship shortage was basically completely unavailable anymore and so we've replaced it with the LSM 6DS 3 TRC which is a really good quality 6-doff IMU adding a magnetometer now it's a 9-doff and the nice thing about this is now you can use it with a you know sensor fusion to get full three-dimensional orientation in space and so we'll update our guide of course to show you how to do that but you know this is a very affordable easy to use and well supported IMU ST has libraries for it of course we have Arduino support circuit Python and Python support as well it's also got some funky you know we we mentioned this when we sold just the individual 6-doff IMU there is a built-in step counter pedometer and lots of interrupts on motion there's also like FIFOs and stuff our library doesn't support the FIFOs but if you are willing to use the ST library the sensors themselves are actually quite powerful and then you know if you need higher quality gyro you can always upgrade to the LSM 6DSO or the LS sorry ISM 330 so I thought I would just show on the overhead with a quick little demo just showing off oops not nearly as big as the accelerometer so let's zoom in so this has got accelerometer and gyroscope and so you can see the accelerometer measures about 9.8 meters per second you know depending on which the orientation is and then the gyroscope the gyroscope when I twist it it goes a little nutty it's like wow you're moving many degrees per second and then at the bottom the magnetometer is measuring where we are in relation to north so you can use that as a compass but all together you can fuse the data to tell you which way orientation is with the quaternions or Euler angles we have a library and example code on how to do that, but there's also a lot of tutorials on how to do that with fusion data using these nine entries all right and that is new products this week later yes new new days