 So we're here at the CS 2019 and who are you? Hi, my name is Jeanette Wilson. I work for microchip technologies Welcome to the 2019 CES. Let me show you our booth. So you have lots of demos right here? We do we have a lot of demos on here Microchip is a semiconductor company and we really focus on effortless design for our customers In the areas of smart connected secure. So what we're showing here is a wireless network So my way is a Wi-Fi technology from microchip We also have Laura which stands for long range if you need to communicate over a longer range You know 10 kilometers for example, you can do that wirelessly and then through Wi-Fi When you actually take a look at this demo, we're measuring the temperature in different areas of our booths And I don't know how this will show up on your screen But you can see the different hotspots and where we're located and the temperature that's being monitored nice over here Here's an example of a device using our PIC 24f J64 GA 702 Now what this is is this is an application. It's one of our customers designs right here This is a 16-bit microcontroller and it's really being used to monitor the overall health of animals in the industry So this will be very important for dairy cows when they're looking at the production of milk You can think of it as a factory and so this technology helps them to be able to maintain and monitor the health of the of the animal Over here, I'm just going to hit these very quickly But we have a lot of sensors in here that if you're looking for precision control in your industry Factories or anything like that. We're able to very very tightly Monitor just like a weight measuring system right here. Yeah, so that's got a scale on it right here So you can see this it's also going to do some some different Cycling here and what we do is we do a lot of different designs Devices here and so we try to package them together very easily for our customers to be able to use this Sometimes things go wrong in the factory right maybe you lose control or things like that Let's just say something happens and something gets broken. I can pull it out And if you see over here It recognized that it broke and so it's going to now try to self-heal the ring using this ring technology So it's kind of like a meshing or rewriting. It's not a mesh It's actually a ring technology that we're using for this. Yes, so Very similar in terms of the ethernet here What we're showing is Amazon free RTOS So our lot of our customers are very interested in how do you connect to a cloud and as a semiconductor vendor? We are cloud agnostic, but we have a lot of examples. It looks like this one's being very Interesting right now. So let me show you this one Now this one is based upon a CEC 1702. This is an arm M4 core With hardware cryptography in it and with hardware cryptography in it What it means is that when you're doing hardware algorithms, for example a shop to do it in software We'll take you about 186 microseconds versus doing it in hardware is 33 microseconds or five times different When you start to do encryption and decryption of your data, you can start to see the scales Because it's a general purpose microcontroller There's a lot of things we can do but a lot of our customers will use this to do secure flash updates and make sure that you've got Updates that are good and then secure boot. We can also do key pads Because we have a lot of IO on this device so we can actually use this to control different things with a key pad So you can see some of the different things there What is this the single board computer here? So this is a single board computer from Konga Tech. Yes, absolutely Where is your solution in here? So our solution is the MEC 1705 This is also an arm-based product these will be used in conjunction with Intel architecture and Intel's in a Transition from one bus to a new bus called Eastby and we're one of the first manufacturers to have that Eastby capability and as such our customers has Use this and then it also has the capability to do secure boot. So if you're worried about root kit types of issues like the Stuxnet Virus or things like that. It will then you say Eastby. Yes. So and this bus solution means What does it mean the multi bus or is it what I see two chips here, right? These are actually the Intel chips right here. Yes. So our chip should be this one right here I'm struggling to look at it right there. So and so what it what it's really doing is That as a process node shrink down below 10 nanometers physics change And so you can't always support like a five-volt bus And so you've had to go down to a 3.3 volt bus or even lower bus technologies And so what Intel and AMD have on their architecture is done is they started to transition to those buses Nice, and this is with the the one with the Amazon free Why does it say Amazon free artist? What does Amazon have to do with a free artist? Well, so Amazon free our toss actually is a Development kernel so you can actually see this based upon the free our toss kernel And so the nice thing about it is very small and very light. Oh, it's very small and very lightweight. And so it's very easy to use with like the Amazon AWS Amazon web services So what this demonstration is showing is a development board using our Wi-Fi technology And a temperature sensor and it's taking data and it's connecting up through the AWS cloud and coming back down here through the gateway and being controlled and so This what's being shown there is controlling this and you can actually monitor the different temperature humidity and things like that So that's what we're doing is tracking that and these two devices are actually talking to each other And you have chips in there. We have lots of So this is a pic 32 MC. We also have our wireless chips on here as well We also have some other micro chip components on here So there's a significant amount of microchip content on here over here We've got some very unique devices. These little devices here are the ECC 608 family of devices which is fantastic for doing authentication Yeah, and to really secure your system and who you're speaking with in addition to this We've got the micro chip processors that are on here as well 32-bit micro processors on here So we have all of that here nice All right, and you have more more demos around I do. Let me show you actually Some of these is this arm solution this one. Yes. So these are arm solutions Now these are the same time Sam Elton Sam 11 devices, which has the trust zone in it So what that allows you to do is it allows you to have a portion of the Code that can really be protected in a customer environment in in a development using the new core I'm Cortex and 23 or 33, but it's as a microcontroller with the trust zone built in maybe it is And you also selling some Right here. Yeah, so this is actually showing water tolerant touch demo So the thing about touch is a lot of times It's very difficult to actually have water because water is a conductor But you know, even now you can see my buttons are changing even though it's wet So I still know is what's going on even though it's maybe in a harsh environment It might be also part of the firmware how you have algorithms that can figure it out and stuff. It is absolutely Right absolutely and over here and this is the Sam L 11 So this is showing an ultra low-power device right here. Now. This is also doing secure lower the long range capabilities So here's this is an arm chipset also. This is an arm Right chips at the arm trust zone with the immutable secure boot And it also has some hardware cryptography accelerators and a true random number generator in here Great, and this is a very important for the future of the IOT also and the Laura and stuff Absolutely, and you can see, you know, we were actually a 2018 winner for the Sam L 11 best contribution to IOT security And that was from arm tech console. You know, we're very proud of that award. Nice big partner with the arm, right? Yeah, absolutely, and you have more more demos around. Yes, so here's more touch demos So, you know, when you have different touch demos again You know sometimes in a harsh and environment like a factory environment You may have gloves on to help protect the users But sometimes you still need to be able to handle different things And so you want to be able to touch different things even though I don't have You know, it's not conducting right? No, it's just plastic glove. Yeah, just a plastic glove here You can touch it feel it and somehow it goes through right with with the touch capability that we have In addition to that and I think that this is really neat, too. Again, this is another Customer of ours that's using our haptics technology one of the benefits of touch technology is that it's quiet You know, but a lot of people say well, I don't know if it's working. I can't tell if it's working So these are really nice because they actually give you vibration and Unfortunately for the viewers on the camera, you can't tell but when I touch it it actually vibrates. It's like Touch it. It's nice. So what do you hear it? I can hear it. I can feel it So what do you do about that? Well, and that's part of the haptics technology that we've incorporated into our solutions And so what it does is it gives the users the ability to actually feel and sense these technologies that are associated with this Nice and this is a maybe potentially could also be printer electronics and stuff or like it looks It could be like in a I don't know in the shower or something. Absolutely. It could it's maybe waterproof Maybe but then here you have some other. Yeah, this is also another waterproof technology similar to what we've shown you before So again, you know, you can do different things and this is just showing that even when I touch it I can still work Yes, cool. Yeah, all right. So maybe you can walk around a little bit more And actually, I think that Brian will actually be sending you and we're gonna have a different person for you to show you our fan Fascinating automotive solutions. Nice. Okay, so let's go there. Okay. Thanks a lot He's actually from Europe so you might have met him at hi, hello, I'm Johan nice to meet you So who are you Johan? You said yeah, so so what are you going to show here? Yes, I'm Johan. I'm marketing for the automotive product group at microchip and I walk you through basically the Demos that we have Automotive solutions microchip is in many automotive solutions. We I would say countless basically We are one of the lead suppliers basically for touch applications touch the solutions and automotive And what do you see here is an example of touch buttons on a steering wheel With with feedback Depending on customer requirements. It's haptics. It's haptic feedback. Yeah, nice looks nice So you can feel you've touched it you touch it and you get you you get some It's not localized haptics right is a whole unit moving or is it local? It's localized under your finger on On the finger. Yeah, if you touch next to it, it doesn't actually move. How does it work? It uses piezo piezo let's say feedback yeah, and And on top of that it's a surface. It's a surface is actually you know, you can you can program it Show more functions or use the function depending on the user. That's what we call One touch so you know one dimensional touch then we have here three dimensional touch, which is basically guesting Distur gets the recognition. You see here. We are I'm entering with my hand into the let's say electric field How does that work Create we have antennas here We create a capacity field and when I disturb the field it actually shows the disturbance It's in a car it can't be in a car. Yes It can't be in cars What a similar well a different technology is used today, which is based is camera based and which it Right-based which is a lot more expensive. So that is Like this How big is the area you can support here here, it's just around here Basically, it's you know the area is within the within the feet created by the antenna So depending on what size of antenna you use it, but from it is 15 centimeters from here 20 centimeters From this distance around That's really cool The third technology that we show here is is a touch display and we show here the first time basically knobs on display It has one connection to The display which is this this is the only electric Capacitive And it feel it gets it's got like nice mechanical feeling to it This the interior can be can be different Like for example like your HVAC system, you know now they are unsynchronized you can synchronize them You can actually Menus on it just one big tablet. It's one big tap it's cool them on put them on Put it on top of the tablet Once it's on is you cannot take it off it basically stays there, but you could have different options and you can have a Let's say a low-end version without that So basically these are the this is the let's say in general the touch area One-dimensional three-dimensional two-dimensional touch Here we show an evaluation kit In the corner where we have Customers right now. We show basically security technology we We saw it on a can network where basically messages are protected secured and all they reuse an authentication to a allow only Messages that come with the right key And communicate with the right key between the nodes. This is a big challenge to keep all these cars Safe absolutely. That's what what we so basically And on here Here is so inductive sensing inductive sensing An example of Application so here you see our oh, I see you the inductive A linear Let's say sensor here That that Sensor position position of the coin No, the coin is For the size You know This is why is this needed today's and you know, we already have all sensors Yeah, but this is a lot more robust than all sensors And then when you look at what what's expect what's happening is you have more electric cars Electric cars create more, you know stress more and more that's a emissions And with the with this technology the inductive sensor technology, you can filter on the better on the signal and work You know robustly in this environment What we Laser technology Basically, it's a mems mirror and in the market That's a solution is driving the men's mirror with You know to control the men's mirror It's heads up display applications heads up display, but also Lighting yeah, so so R2B lighting what we show here is this technology called isolate It's it's basically a Low-cost solution for interior lighting What microchip provides is we are We provide the microcontroller with an isolate firmware to drive the LEDs It's a it's the master Should be here. What is isolate isolate stands for integrated smart embedded LED. It's a It's a technology that was Invented by in over and the BMW And it's for interior lighting, you know for any like for example Having back background lighting to your to your knobs that you just saw over there could be done by it by you know This technology or if you the color inside the car you can choose the color inside the car out of 4096 different What we're so working for cars, right? This is the networking for cars for interior lighting. This is networking Classical networking can networking What are you doing mesh with it? Don't know what we show is can't caution networking You know we have we have a network where in a normal car not every Every node is active at the same time. You know some some functions are dormant while you're driving some functions are active This this technology that we're showing here is called can't passion at working It allows you to wake up nodes on demand when you need them and what it does to the to the user is let's say Reducing the power consumption of the overall vehicle. So at the end of the day, you're actually saving energy So and that falls down at the end of the day to saving energy on your fuel emission. Yeah on your on your fuel consumption You Jump in there Car access It's it's basically It's basically a remote keyless entry. It's passive entry passive go The system that we have set up here is basically you activate the system With the capacitive sensing technology here on the on the door handle Now your system wakes up wakes up from dormant from sleep mode in active mode You basically communicate with your key and your key fob and the on board unit and you can Without removing basically your key from from your from your from a jacket or from your from your suitcase You can you can enter the car you can start the engine press the start button then you start a car What my kitchen pass is one of the challenges here is basically Let someone on You know that the challenge with pep systems is someone could actually Let's say you read your your key while you're while you're actually let's say in the restaurant or at home and and use a router To actually open up the car that is distant from your from your from your key and you have a solution to make it we have a Solution for that. Yeah, that's a big deal. You don't want people to steal your desk. Absolutely. Yeah Moving on to the next one. This is wireless charging So What microchip has is is a number of let's say products that go into the wireless Chee Chee wireless charger and high power very high power of wireless charging Yes for automotive it wouldn't be 100 watt for automotive. Basically. We're targeting 15 watt. That's what basically the phone maker the city Smartphone makers would accept Our system is again. It's just flexible to be able to adopt the various profiles of the different let's say mobile Smartphone makers whether it's Samsung or Apple or UI can be it can be adopted to their requirement This one is USB power delivery So this one this over there we saw the wireless charging here We see the wire charging basically now why are you USB interface and what we show here are the different types of Charging profiles that you can that we can support without without I This is another element of basically power delivery USB charging but also flex connector For example, this this solution supports car playing car life Where basically your phone takes over control of your of the navigation system or the head unit So when you probably know about this when you when you plug into when you plug into the No, the USB port with your iPhone And you go into car play mode basically on the display on your head unit in the car you see basically a Mirror of your of your cell phone of your smartphone all the applications are available now So it's display board. Yes Yes Right Exactly, so This one does both data and and and charging this one is charging only What we show here is a secure isn't it application and I mentioned earlier over there that security is a key point for any networking system or any network in the car So what this solution shows is an ethernet network with this different nodes and Paired with our security. I see You know provides a robust secure solution We we not just rely on software TLS, but also do hardware TLS here Express is a Is a standard that is being used in the in industrial application today? Microchip has been in this market for the last 10 years As a key supplier of the technology and industrial application Now we are making this solution ready for automotive applications. So that means automotive qualification But we also provide Solutions with automotive standards like me piece. Yes. I to interface to camera ICs and back to the main unit so that gives Customers multi-gigabit in this case 10 gigabit Power 10 gigabit the speed In a small cable and this in the coax cable. So this is all over the car 15 meter coax cable with These are inserts in a very good for For insert in the 15 meter cable up to 12.5 gigabits per second that's correct That's the industrial speed for automotive. The speed is right now 10 gigabits per second What we show here is Technology that is the combined basically synchronous network and ethernet This particular demo here shows an ethernet network connected to the INI net On the same bus we have Streaming data we have audio video data, but also we have packet data. We have ethernet Data so anything that comes from from the ethernet Can go seamlessly basically into those nodes we could be for could be for example head unit or an amplifier Or or telematic unit because all these cars have Networking going on right there's more and more network jumps to the cars have much more faster network well, they actually have Many of the cars have by P-based Networks But for some applications I think that is a much more cost-efficient solution Because it actually can can work with native data a streaming data, especially For audio and video application We shot a variant of this INI net here, which is with voice with voice recognition and with with microphones those microphones for example could be used for emergency calls of course, but also for noise noise cancellation within the car And again the real-time Speed is is critical Streaming data is critical. This is why this INI net is so let's say is superior over other networks Exactly I can connect it with that Yeah, and then just this demo there Okay, but how about that one over there can we can we go back sure let's get this one So this is how you make sure that the cars don't get hacked This is our security is our modern example of our security application. This is a can network and Messages are being let's say sent around between the nodes. Yeah, these are the three nodes But imagine someone is let's say hacking This the system for example through coming in through your telematic units and changing Basically the data that are communicated between the nodes. Yeah, so your speed could be shown wrongly or Let's say the RPM Could shown but you actually could let's say stop the motor from external and and with let's say Authenticated messages that can be prevented and we have the solution that Authenticate can because can is kind of an unencrypted open networking thing. It's very easy to Messages are not encrypted first of all, yeah, but you can encrypt them with with this technology