 So we here at the analog devices and who are you? Hello, my name is John and Buddhist responsible for business development For health care at analog devices. So what is analog devices doing for health care? In fact, what we are doing is trying to sell you complete solutions So what you see here is in a wisdom device that includes in a complete this one, right? Yes So this is no analog devices here. It's just the one. Yes, it's an analog watch the other one But the device in internally actually has a complete solution for measuring optical heart rate So what we do is sending light into the tissue and we measure the reflection coming back from this and Everything integrated in a single module. How reliable is it compared to the best way possible to measure heart rate? Reliability is one of you know the the anchors, you know We're focusing at since you are applied to motion with these kind of measurements But also ambient light and that's where we try you know to do best So we have solutions to come cancel out the motion artifacts as well as the the ambient light to have a reliable reading Is your solution here your SOC is it a cortex m3? That's correct So we have a cortex m3 that consumes only 40 micro amps per megahertz So very low power to extend the battery lifetime of your application Is it one of the lowest power cortex m3 in the world? It is The lowest maybe it's it's the lowest at the moment People of course are catching up but for the from the perspective we have to complete solution from centers including the radio and the process How do you make it so low power? It's in a combination of the process that we're using and the very small process node and oh the process node is small On this this processor and in fact, it's a complete family that we are developing So for this you have analog and digital integrated one module That's why it's called analog devices because you're very good at analog stuff. That's it. So that's where we come from and So heart rate monitors are in a bunch of smartwatches and fitness trackers around the world Is it your solution that's in there's? Not everyone but you know, we are we are a big player in this market So we have our sensors Integrated in those applications and it's not just the optical sensor for measuring the heart rate But we have also the motion sensors built on a mems technology Disciplating very little very little power. So we have a sensor that runs from one microamp. Where's analog devices based? We're actually in a US based company. So located in Boston where we have also Development and production facilities around the world. That's what we do around the world But in Boston we have a big campus where we have thousands of people working on new developers And here's some demos showing the same center Yes, so we you haven't a sensor that is including the LEDs and the photo diodes Everything you know behind the glass window if you focus in on this board You may be no can see it behind the glass window as well that we have a tiny tiny device That includes LEDs red infrared optical sensors and the analog from that all right and Right here. That's the interface board So the will see the previous generation everything that you were that you see here is now integrated in this with small device to make it You know easier to evaluate is analog devices doing all kinds of other stuff with healthcare. Oh, yes Yeah, we we still also in the professional world So we're making front ends for for scanner technologies and CT imaging x-ray, but also ultrasound. Can we look at what's over here? This is a vision base I So effect what you see here is an actually a complete solution where we have a sensor So an optical sensor able to measure Occupancy and with a blackfin processor. We make it in a complete solution for For instance independent review So what you see what you see on this this sensor? It's a 360 degree sensor You see two hotspots of the two persons sitting on the table next to us. Where is it? So the sensor is on top is there. Is it 360 360 degree watching and Facing to the right. It's facing to the right. So and then it's 220 or something. 180. It's 180 180 you see the two people, you know on the on the on the on the table sitting over there You know when these two red So it's for detecting heat Living people or occupancy, you know in a room So sometimes you know in a room you want to switch out in the lights when there are people But for rescuers it would be good to know how many people are in the room and that's actually what we do with this kind of sensors All right, and over there. What are you talking about over here? So We have a step over that is able to step up As for voltage is lower 70 millivolts. Yeah, and the 70 millivolts is converted into a four volt output To charge your batteries Supercomputer Autonomous sensor. So it's a sensor board with a radio and a temperature sensor And it's running from just an OPV cell So it's running from a solar through a supercapacitor. Yes And then you need for this computer of course. So to charge the cell Let's go check out this one over there. This is the last demo you have over here So what are you showing over here towards the sensor so this is a solution that European sensor Yeah humidity Radio chip microcontroller What does it do so we transmit energy from one sensor and from the transmitter we receive it on the other hand and While it's rotating you can measure the equipment to monitor the equipment Vibration, yes machine monitoring So it's for monitoring Monitoring machines. Yes. All right. And what is this one? So this is actually I can use it for a second. So this is the same board but with the mounting cover So you're going to mount it on your ceiling and this one I'm going to be mounted on the rotating part So the target Application is about 20 centimeters apart. It can be also up to half a meter. It's a relatively short range of application and we're talking about Parvastic kind of energy of about 10 millibot which is more than needed for this type of application