 So we're here at the Better World 2018. Hello, hi everybody, my name is Roman and I'm from STMachtronics. Let me give you a little guide tour around our booth and show you the key new things that we are showcasing here by ST or by our partners. One of the key and coolest new product we have here is our new system on chip combining STM32 and RF Transceiver. Let's go check it out what it is about. Exactly, this is a completely new product line. Opening the STM32 to the new type of products and applications. So let me introduce Natali, which is the product owner of this new line. Hello. So what is this new chip? What does it do? Okay, this new chip is an STM32 with wireless. So why are you showing bicycles and helmets and stuff like that? So we are showing that because we want to show the capability of our product to support BLE in different mode than the usual mode. It means that we are in router mode and we are showing is a master and slave through BLE. So it's a nice way of showing this feature through this kind of application. And here you have some demos running it with the e-ink display? Yeah, so here we are showing like a smart home application where we can control different applications within the home through a router which is there supporting our new device, wireless device. So is it on there? Yes, it's there. So we have three packages. And here it's a QFN68 and we have also QFN48 and WLCSP100. And what we are showing is our product is supporting multi-protocol BLE and 802.15.4. So multi-protocol with also a concurrent mode with open thread and BLE 5.0. So is it on the SoC? Yes, exactly. So it optimizes the power consumption, optimizes the price? Exactly. So we are having like STM32L4 plus an RFIP on the same silicon. So it's really the same SOC. And what is the show here? So here we are showing also a nuclear board with our product and through this demo we are showing that all the commands on this bag are sent to our helmets and t-shirts. The t-shirt? The t-shirt here. So we have also our product here with a QFN. So it's so small it can be a sticker, like a pins? Like a big one, like a pins exactly. So it's like a plug and play board. How long is the battery life for the little battery? With the little battery for many months you can last. All right, that's awesome. Thank you. Okay, thank you. Thank you Natali. So let's go around a little bit and under the corner to show you the next new cool product we have. All right. There's a big booth right here with lots of small partners. I can tell you, maybe you won't believe it, but we have 40 different showcasing here on the ST booth and we have 28 partners, makers, universities, startup companies presenting their products on the fan zone. But we'll go there, don't worry. So the next area and the next new product I would like that we introduce to all of you is our new NFC line with integrated PWM output channel. All right. So is it right here, launched? Yeah, this is the area that we are showing all the NFC related products. Okay. And Juliana will tell you a few words about this new product line. Hi. Hi. So this is NFC on the SOC? This is an NFC tag IC. So an interface allowing you to work with the near field communication and this is a very new one, special one because this is what we call an ST dynamic tag, a tag that is coming together with the second interface. The second interface is in this case a PWM signal generation. Indeed. So where is the solution on here? The component is here. The component is there? Yes. Because NFC is shipping billions and billions and billions of tags there every year. Right. They're not dynamic, most of them, right? Correct. So dynamic, what does it mean? It means that we are adding some second interface to the usual RF interface. The second interface is generally a wired interface. The most common one is to add a nice square C interface that is able to make the product communicate with a microcontroller behind. So this just lets you get inside into any embedded electronics. Is this the development board for that? Yes, this is a discovered board. Discovered board with the solution on it? Yes. The solution is there. So what does it do? It allows, for example, the example that we have here with the washing machine to get access to the microcontroller which is handling the tool. You can do programming into the production line with this device and this is a product that allows you to do the configuration without any power supplied because this is a passive device. And the solution is very compact. It's a small chip set. Is there an ARM Cortex M0 or something? No, no, there is no SOC. This is just a communication, adding communication. In this case, there is not even any microcontroller inside. Indeed, this is a brand new solution. There is no other solution like that in the market today. It's the very first one that is coming to the market with this capability to add to an interface, NFC interface, a PWM signal generation that allows you to do some control of the variation of power. Like, for example, the lighting intensity can be directly set and controlled through the interface without the need of any microcontroller. So when we, in the future, get a train card or a smart card or something, maybe there's a little button or maybe there's a little LED or maybe something like that? No, not really. This is an application really meant to... This is not for ticketing, for example. You have that for ticketing, but in that case, you won't have a second interface. This is a step ahead because you have the second interface to a tag IC that in general doesn't have. In this way, you can open and enlarge the capability of the chip and you can get, for example, a control of the lighting intensity in this case. All right. That's cool. So how soon is it available? This is right here. It's already available as board. You can find on st.com the data brief already for this device and we are going to ship it very soon. In billions of quantities. This is my hope, actually. Cool. All right. Thank you. Perfect. Very good. So let's go just around the corner where we have a very nice package. We decided to make the life of all our customers and designers easy, so we combine all the hardware and software ecosystem into one package that we call STM32 Cellar to Cloud. Basically, it brings you all the necessary hardware, all the necessary software ecosystem, including the deal with the operators. Is there a modem in here? Yes, it's a modem and my colleague Ronan will give you a little bit more details about the solution. What modem is that? ST modem? No, this is a model from our partner Quectel supporting different technologies. 2G, 3G, but of course also the incoming LT, NBIOT and 4G. NBIOT. Exactly. All right. And it just clocks in basically? Yes. So this is the hardware, right? But then also you get all the service. So you get the eSIM card access to provide operator for both technologies and all the things there to be able to connect to the cloud. All right. So let's check it out. Can you tell us a little bit more? Yes, the solution is very simple. We connect the modem to the main board, okay? Yeah. Is this the modem? Yes, this is the modem. It's the same. So all of it has LT, NBIOT? Yes, LT, NBIOT. Category M1 on Category NB1. It's already provisioned in the MFI, so we have an embedded SIM. I can turn the board if you want. Okay. There is also a socket for the SIM so you can choose with the GPIO you can select either the SIM socket or the embedded SIM. All right. And in our demo... E-SIM. In our demo we have a network simulator. So we connect the device to our network simulator which in two parts on the software that's run on this laptop on this laptop is also connected to internet. So the data is sent from the device to the simulator and then to the cloud. And from the cloud you can also drive the device. For example, we can toggle a LED. And as you can see a colleague of mine is also in Barcelona for the Mobile World Congress. So we have all the configuration on two different dashboards. That's our solution. This board right here, what is the name of that board? Yes, this board is a discovery board which is based on the L50 power microcontroller which is L496. And the modem we also have the second solution with this modem which is also quite helping to be compatible with the PG-96. This one is PG-96. And for this board with category M1 and NB1 we also have a 2G fallback in case. And is there a price for the whole... Yes, the two kits are the same price is $110 most or less in the main distributor. So this is going to help revolutionize the whole IoT over NB IoT kind of Yes, yes, yes, because customers have a complete solution they don't need to go in ST for the MCU for the modem also for the operator all the solution on bed, all the parts also the cloud, different cloud access on technologies, on protocol HTTP, HTTPS, co-app MQTT and also LWM2M with the partners. How much is the power consumption on your board and on this board? The power consumption of the board in stop mode the MCU is 3 microhumps on the modem in category M1 is 9 microhumps in PSM which stand for power save modem. Soon, in 2-2 this year so you need to wait few weeks, few months or it will be ready. Cool, all right. Thank you for coming. Perfect, thanks. So, basically with this three main lines we went through the booth but as you can see there are a lot of other subjects around. The graphics we show, we showcase motor control, yes. Basically this is our reference design showing how to use our products like drivers power components and microcontrollers for applications such as one. Exactly. And you see it's including the gimbal control which is following the shooting video, shooting with the drone application. Exactly. So, we have one interesting subject, yes. We have now also solution around artificial intelligence which is becoming very interesting for many of our customers. We have two solutions, one which is built around STM32 so we use the performance of the general purpose micro doing deep learning functionality and for more the high end solution we are preparing dedicated ASIC multi core device with a lot of power to do very deep learning Neuron site. Type C power delivery, display port Definitely, so moving with the new trend of Type C solutions today we have different products for stand alone or microcontroller based operations of Type C. Mems, power management, sensors Absolutely, so you know ST is providing many many different products not only microcontrollers but we have sensors we have signal conditioning, operation amplifiers, so the big advantage is that we bring to our customers really a list and set of components you can build around. It's not only about the products, you see we also bring all the different boards that ease the customer life and make his evaluation very easy and very simple, so you can go quickly from prototype to the final product. And do you have lots of partners or universities doing some stuff? Exactly, so you see here on the booth we focus mainly on the ST solutions but since we have a huge ecosystem of partners, makers universities, mainly around STM32, we concentrate selection of few of them on our fan zone. So this is the STM32 fan zone and as you can see there are really a lot of different things. How about we check this one here? Ok, how about this? So here we are in the STM32 education corner and here we concentrate a couple of universities from Europe showcasing their different stuff like student projects or tools that can help in the university during the education classes. Hey, so who are you? Hi, my name is Andre Ile, I'm from department of measurement of Czech technical university. We are actually in close cooperation with our electronics. What is going on here? Around here we've got a software-defined instrument. What that means is it's a cheap way for students to realize their own oscilloscope or a signal generator software-defined instrument. Exactly. Oscilloscope and what else? Oscilloscope, arbitrary waveform generator. You've got PDM generator, you've got counter you've got everything which you need and it's actually just for 10 to 15 euros. What is this board? Is it meant to be an oscilloscope? No, no, this is actually a standard development kit from ST Microelectronics and we use it, we program the firmware and we created a set of applications for also for Windows, for Linux that are all actually available online, you can download it and actually it's a very cheap way for students how they can realize their own the domestic instrumentation and it's like the price performance ratio of this is actually very good. So are you putting all this open source or are you helping everybody else to do this? It's partially open source, at the moment the source code is not available but the binaries and the applications are available for open use and we are considering to unify, since there are several applications, we would like to unify it and then publish the source code. Do you do an oscilloscope with this board? How is it accurate compared to a proper oscilloscope? It's actually that actually depends on the AD converter that's in the STM chip that one is 8 bit so it's less accurate since the commercial ones are at least 12 16, some are 24 bit so it's less accurate but as I've said, it's not a selling point since it's for students but what's actually the good thing is the price performance ratio so that's the main thing. What do you do on this one? This is a minimalistic solution and the main idea here is that the only two components that you need is the MCU and the voltage controller and you connect over USB and the the trick is done actually by selecting the proper MCU which has a USB bootloader so you can actually just plug in here and you don't need this part which is in this one. This is the ST link where you need the programmer so you don't need the programmer chip and you actually directly boot it over USB so by turning this which you can switch between boot mode where you just download the firmware and run mode and everything works. Do you think the ST development board is all perfect? Do you have some feature requests for what should what we call? For me, I don't have a feature request at the moment. It's pretty good what's there. Yeah, I think it's quite enough. Quite cool. Okay, thanks a lot. Okay, thank you very much. Cool. Okay, let me jump over here. Okay, perfect. So let's again just move a little bit around the corner and we continue with another university this time it's INSATULUS INSATULUS is showcasing here really different student projects, okay and we'll have our colleagues here to introduce some of them. Okay. Hello, perfect. Hello. So what are you showing here? So we are coming from INSATULUS which is an engineering school in south of France and we show here the lab classes and the projects our students developed around the STM32 board. Yeah. So you can see here a Game Boy developed by our students based on the discovery STM32 board. There's a Game Boy running there? Yes, it's a Game Boy. You can play Tetris here if you want. Okay. And this is based Okay, so all right. So this lab classes is based on the discovery board which uses a lot of sensors. And you put some stuff here? Yes, we developed our own design our own board based on STM32 discovery board. Nice. So is it great for the students to work with? They are really excited because this allows them to learn how to program embedded systems. You can see here another project this is for the first year students it's a real-time system project implemented on the STM32 microcontroller and here this is master level project this is a master level project for the last year of master based on a new board which will manage all the sensors around the car to transform this car in an autonomous vehicle like a mini-hugel car. Oh, autonomous self-driving. Self-driving, of course. You can see the video here of demonstrating the self-car the self-driving car. Cool. All right, thanks a lot. Thank you to you. Okay, so just to close the STM32 education corner you see also AGH from Kraków. And here what the guys are showing our solution which has been started as a project students but at the end they were so good so they were industrialized by their partner. So they moved really from the student and the connection between the university and the industry is very close there. Like for example there's an e-ink here doing some stuff. So exactly, these are like a sensor note so you can see some of the data on the e-ink but they are also reported to the gateway and you see they have a couple of anchors around our booth and then everything is concentrated here on the server of the gateway. It's the coolest thing when students can start making real businesses, right? Absolutely, and I think AGH is one a very good example. They did their own branch which is really moving the student projects to the industrial versions. Should we spin around there? Yes, let's go this direction to see so we move from the education we started from the demo parts of ST, then we look on the education but here we have some of our customers, so people that really develop final products based on different products of ST. And one of them is Letty CA from France. And their project is very cool, let's check it out. Hi there. So what is Letty? Letty is a research center based in France out of Grenoble and we develop silicon material and research and also software solutions. Are you creating the dream of everybody to have a drone that follows you and never crashes and stuff? Absolutely, this is what it is. So what we're displaying here we built this out of a commercial drone we implemented it with our sensor fusion software which basically controls the trajectory of the drone. So are there any cameras or sensors? What's here? Absolutely, so we transform the drone that commercial drone and equipped it with six time of flight sensors from an ST micro that you see here. Time of flight? Is it a camera? It sends a light beam which is the time it takes to eco back. Is that like not IR? It's infrared. It is IR? Exactly, precisely. And then it's able to position the drone and detect obstacles and their distance. So one, two, three, four, five, five, six. And that's the trick. That's enough. It's never going to crash? It's never going to crash. The trick is that it's a highly efficient piece of software which compiles STM32. Where's the STM32? The STM32 is right here. This is the original board of the drone. It's an F4. F4? Yeah. It's an F4. Well, yes. Exactly. And what is the software? The software is being developed at Letty, so it uses a smart algorithm based on Bayesian fusion and the trick is that we use integer numbers instead of floating units. The beauty is you get an autopilot auto-autonomous drone anti-crash solution. How long is the battery? It lasts for six minutes. Can we see the action? Absolutely. And the additional weight is only 8 grams on that drone. That's what makes it. Do you plug the battery? Do you plug the battery? And then you have this globe? Absolutely. So we'll have it... So Arnold is placing it. We'll have it fly into the sphere. Is it a voice command? No. We're just going to enable it. This remote for the takeoff order. This is only just to launch it. Okay. Ready to takeoff. So we move the sphere. It's never going to crash. Because all these drones are very fun, right? People are buying drones, but they're crashing them every five minutes. Absolutely. And it's complicated to control. Yes, there's lots of applications. Obviously, it can also be assistance to find the drone for pipe inspections. This is another application. So in this sphere is the third day, right? Has it crashed? The reason of the crash is there's a lot of interference with the ambient lights. Because these sensors are actually working on certain light frequencies. And it has to detect some kind of transparent things here. Absolutely. So there's reflection of a... Is it easier to detect something real wall? It really depends of the reflectivity. So it depends really of the material. What about a tree? We don't try it. We can say. Is it good to adjust with the wind? Or is it only indoors now? For now it's only indoors because of the size of the drone. But we want to make it on bigger drones with more sensors like radar ultrasonic. So my dream, what I would like to have is two or three of them, follow me around and then they land on my backpack to change the battery. Can you do that? We will try. It has to work indoors, outdoors everywhere. We will try. Is the STM32 fast enough for this? Yes. Approximately 10% of the CPU is used for the algorithm. So in case you can think of new algorithms with other IT? Yes. There is another application which we are running. We will demo this at the end of the year. It's a wide cane for visually impaired people which we will equip with the same software on STM32 and other type of sensors. It will be equipped on the cane and then it will connect to your phone and there will be a nodio translation 3D space audio modeling of your environment. There will also be feedback on the cane. So thanks to the software on the STM32 it opens up a whole new breadth of application for all sorts of things. The drone is only just an illustration of it. I think millions of people are waiting for you to solve all these things. Absolutely. Thank you. Let's move around the corner again. I told you we have a lot of products. We have a wide ecosystem of boards that are allowing our customers and makers to develop quickly and in supporting doing this we are also giving more than 5.000 boards free of charge during the show. So people are coming in they can select one or two out of 12 boards they scan their batch and they will receive an email with the registration link to retrieve the board free of charge. Just type in the address and ship it. No, the email address is taken from the batch. It's very simple. They will get it shipped to the mailing address they will put inside the system. I have here two guys who just registered a few minutes ago. So guys, thank you. So we are working in continental CBU and we are dealing with electronics for automotive in every day job. Automotive, yes. What kind of stuff do you think maybe you can do with this? So we registered for these free boards because also electronics is my passion and also in the free time I make small projects at home for different small home automations or now we want to build a small home near the city, the big city for the weekend and I'm trying to automate things. Are you building a self driving car? Not quite yet. Not yet. Are you building a smart home? Yes, so at job we are dealing with electronics for powertrain for automated gearboxes and in the free time home automation and kind of Is it cool show here? Yes, it's very nice. We are in a business trip and we wanted to see it. And they have some cool boards. Thank you. Perfect. So let's move on a bit. So we visit the education we visit some of the makers and we continue here where we have another group of people doing cool projects based on our products. So let's check out with these guys from Photon coming from Poland. They have a very nice robot for education from small kids to the teenagers and they will show a little bit more details about that. Nice. Hello. This is a cool looking robot. Thank you. Hi, so who are you? So I'm Mike, I'm from Photon Entertainment Company and we are the manufacturer of this robot. What's the name of this guy? This is Photon. It's a little dog that likes It's not a dog, it's a robot. And now this robot teach children about logical thinking and coding. So what we do is that we have four programming interfaces, I will show you in a minute and we teach them how to create code and how to make it move make it react to an environment and how to make it alive. Is it for sale? Yeah, of course. We started in August and right now it is for sale. What's the price? So it cost 199 euros. So how do we program it? Let me just put it on the ground. Here we can see one of the programming interfaces. So right now we created a program when we repeat to drive forward and then if a robot will see an obstacle it will turn right. If I hit play we can see the trope is driving and when I will show him an obstacle he will just avoid it. Nice. So we have some more categories. We can make him drive, we can make some sounds, we can change colors but also we can react to sensors. Robot has some sensors inside so we can react to obstacles, to the change of light, to some touch to the change of ground contrast as well as for the loud sounds and for the shakes from the accelerometers. What is the chipset inside? So we use STM Cortex M3 from ST company. Yeah, STM32. So we did STM32 F103 but also we use some time of flight sensor inside which is great because it is really small and it was very easy to have the time of flight sensors here so it was very easy to put it inside and cover it with a glass because at the beginning we had some problems to cover the sensor but with this sensor it was very easy to do. Cover the glass by glass and it knows exactly the distance. Can you think how far can it know? So right now we use 150 cm and that's completely enough for us so that's great. Do you have anything that it avoids to fall down the stairs? Right now no but still you can write some program to see if the contrast changed and then you can try to avoid it but right now So do you sell worldwide? So we've launched in August because we are a Polish company, we started with Polish market but this year we are going to be available in Germany, UK and some other European countries but still if you are interested just visit meetphoton.com and we will be sure to sell you one of these. Cool! Royal! Do you like it? Did she buy one? Not really but she was in June in Poland and she played, she created some coat fold and they like it a lot She doesn't have any cash on her Yeah, for sure she didn't have one but she didn't bring her kids so they didn't buy one because they didn't have kids but still we will send them one. They need one, no matter if Brexit they will need a Polish robot Yeah, that's true. Are you planning to do bigger ones? Can you wash the dishes, clean the clothes? So right now we are very focused on photon so we will develop this product maybe in future we will do some more robots Actually we do clean dishes with photons we just need three of them create some coat and then we will wash the dishes with them And bring the beer, right? You can have it on the back What we do in our office here are the magnets so we have some custom accessories We have a stand for a beer or a bottle You can buy one to drive with a bottle This is the dream of every guy to have this That's why we do it. Cool, thanks a lot. Thank you guys. We have another one which is quite cool and I think Florian from Konrad will show you in action. Hi, so who are you? I'm Florian from Konrad Electronics Konrad is like a store in Germany, right? Yes, we have many stores in Germany like a media mat Better Better for the market makers And this is the real product in the store? Yes, this is coming soon It's a self-commone It's a hexabot We launch it in 8 weeks something and say you can use your own two kilobots or something or Arduino with your own sensors or cameras and then you can do some great things or you only have fun with it Is it a kit they have to build it? Yes, it comes in a self-building kit So all the parts you have to screw them together? Yes, it comes with the remote controller with the PCB 18 servos What is this PCB here? This is the self-developed self-developed port You can use your own login port, or Arduino, or Raspberry Pi How does it connect? How does it connect? What are these ports? The standard connector ports? Yes, the standard connector ports And then Sorry, I disconnected it But then, what is this? A fan? This is a speaker A speaker? No need for a fan And it works even without the board So that means it has a brain even without the head You can use it with the remote controller directly Or you can control it with your own login port And the big batteries in there? Yes, it's 4 amp batteries, 6 volts How long will it last on battery? It's different We have different modes to running and then you can run some hour or half hour when you take more speeds And on this board, can you program like a self-piloting Yes, sure You can automate it, or you can sensor or camera or something You can follow some dark lines on the ground Can you add an arm to open the fridge, take the beer and put it on and bring it? It's a very good idea Sure, it's possible So how much is this kit? It's coming soon and 8 weeks worth 599 euros Very cool Thanks a lot Thank you Alright, so we'll talk more on the right here So there's more or more queues over here with the people As I said, up to 5000 boards What I want to show you more is basically on the embedded board we know that some of our customers are coming and they would like to speak to our experts to our application engineers that know the product by heart so they know all the bits and bytes and here basically they can come and they can help to debug their application with added value that the customers can come They are very much welcome and we can help them to develop their code So you have all the boards in here Yes, so this is the tool what we call STM32Q platform This GUI has a couple of functions You can start with like a product selector You choose which arm you want You say I want a Cortex M7 Exactly, so you select Cortex M7 and it will fill through for you the ease we have and you see there are really a lot of products there How can you have so many products? Because you know the idea from the beginning of STM32Q was to create really big family of MCUs which keep maximum compatibility in between so the designer can use the same platform the same peripheries the same tools whatever he is designing simple sensor up to a very complex gateway So this is one of the benefits of this family compatible with one board for the other Exactly, so we keep the compatibility through our libraries but also on the hardware level so today most of the components are pin to pin compatible as well What's the software that people run mostly? So today of course most of the code is based on C and we provide libraries two types one which is optimized on the code size and code efficiency called glow layer and the second one which is more universal and flexible so hardware abstractor layer So it's easy to provide support for all these millions of developers Exactly, so you see they get the board here right then they go to our web page they download the STM32Q which brings them the bridge between the hardware to the software because inside the cube they can also configure the peripheries they want to use and it will generate the code for them Exactly, so it will prepare the project your favorite IDE with all the peripheries configured with all the drivers there and you can start to develop your application code on top So that's why it says release your creativity Exactly, this is the main motto of STM32Q because our products our people and our tools are here really to to bring all these cool things as you see here The last one I would like to show you here today it's a very specific technology from a company called Neonode Hi Hi, so if you could help a little bit to introduce your nice technology to us Sure, so this is actually Neonode and what we do is we do interactive technologies I've been videos with you in the past you've been a student right? Correct, so what do you call IR Yeah, it's a laser based infrared system we use ST's ST Micro, the 32 bit of course the M4 and we also use an ASIC that we have developed together with ST Micro So here you have the lasers and the photo diodes on this side that we wire bond directly to the substrate and that way we build a module that actually you know interacts in the air, looks like this So it's for air touch So it's air touch and the way you can actually see that This is a hologram right now and you can actually interact with this The image is floating right now Yeah, so by placing it in front of the image, you can interact with the image and of course you can play nice music Yeah This way you can also interact with it in different ways, you can be in communication you can always say A chopstick? A chopstick in the air Yeah I want some cash some 500 Alright Okay Cool So you can be in medical You can be in X-form You can be a doctor You can be contaminated So it's a really interactive technology using the best out of ST What does it say here? Manufacturing steps So here you see the PCB that we first manufacture in our own manufacturing world We put the optics on top of the PCB So the elements there are the ones that control the light flow And then we capture it back to metal And you call it the ASCA 3D plate Yeah, ASCA the display technology from Japan called ASUKANET And we do the interaction technology based on then you know so that the display can actually do something worse The whole solution The shipping from Japan the plate and the interactive technology from NIONO is actually available from Digikey today Thanks Okay, so the really last thing just you know to close our nice tour is here with Stil, Stil And let me introduce Barbara which will take you just few words about their nice solution So hello, I will do very fast So I'm the creator of Stil We start up in Paris a version of Station F And so we are Station F Station F in Paris Exactly, absolutely Apparently the most silly smart object ever And in the video and here you are doing what? So this is pen spinning And so what we are creating is the first connected pen When you can see here More interesting I invite you to see Alexi So first connected pen will allow us to play with you So we are creating an electronic card which is based on the ST microelectronics so all the sensors like accelerometer gyroscope and magneto We sending the information via bluetooth in our smart phone And there behind there is an algorithm who can say us basically which kind of figure you are doing So the first chosen discipline is pen spinning And as you choose What do you choose here? So here are the categories You can try Let's take the expert And here you are in the way with difficulty It's better So there is not so much stuff So how do you choose what happened in the expert level What do you do? There is still nothing right now But there are fundamental terms The first trick like thumb around I have to copy him And it tells you if you did it correctly Exactly So you train with this Then after you can do it with any pen And people are going to be mind blown Everyone can do It teaches people to draw their friends Exactly So this is the first kind of connected toy But the future of steel is much more higher We'd like to put together the material toys Like a pen or even yoyo Or a frisbee What we can imagine to connect And to use the advantage of the digital world So the connection Application learning Is this for sale? And challenging It would be in Kickstarter on the beginning of June Is it going to be ready for Christmas? Everybody can buy We're working on it Thanks to ST we found the solution To be possible maybe to do really until the Christmas Because Christmas will be a big gift How much will it cost? Between 60-80 euro It's still working on the prices Cool, how long is the battery? The battery today on this prototype It's a five hours but full playing As you see Alex And it travels But the new one it would be challenging For keep on eight hours Nice, that's cool And potentially the app will have all kinds of functionality Of recording what you just did And kind of show a 3D version of it Yes, of course We'll actually try to connect it Let's do it We can connect it to some kind of a Let's say a clown or something And then the 3D clown is going to show What you just did We're working on it as you see it's a beta But We are six today Free on the technology part And free on the communication And the market Station F is amazing You have to definitely see it I'm from Czech Republic And I'm French So it's amazing And potentially You're the next billion dollar company Let's hope That we are the next Uniball Thanks to you Let me stop here Thanks for watching It was a pleasure to give you this Guide tour in 2018 Embedded World It's a very important conference for ST Definitely because here we see Embedded World as a physical place Where we meet with our partners We meet with our community And we give them a chance to share And collaborate all together