 Hi, I'm here at Paratek booth with John Stark. Hi John, I'm Harib Doshi, nice to meet you. Great to meet you. How are you? Good, how are you? Great. Can you tell us what you have here at the iZone today? Sure, so Paratek has created a nanoparticle semiconductor ink that when placed between two electrodes, front electrode here, back electrode here, the white ink is our quantum tunneling composite, that when you press on it, it measures force, so changes in conductance in relation to how hard you press on it. The material offers some advantages in that it's very simple to integrate but also very sensitive and used in a couple of different structures. You can do things from putting it in a mobile device, put it in other sensing controls with buttons, remote controls, even a drill. Awesome, that's sweet. So if you look at the keyboard application, could you design a keyboard such that if you hit it hard, it makes the letter capital, and this is one of the things you do today with the keyboard is, if you're trying to have capital letters, you're putting it in your system. Absolutely, and this product right here is designed for a keyboard so that you have spacing so you can really see good definition between keys, even when they're close together, and then if you push between the two, you can see a relative change in difference, right? So even if your finger is pretty close together in a very wide resolution, you can do that. Now in other instances, you may want to integrate something with much higher resolution, so that if you move your finger just a little bit, you can use navigation. So one of the things that we've done, and I'll let the thymus here describe this, is we've made an active matrix sensor, so here you have 24 by 50, here you have 40 by 40, 80 by 80, very high resolution. And this is run in an active matrix? Yes, so you're measuring each individual sensor as opposed to passively scanning. So if you look at sort of the resolution here, right, versus resolution here, look at how much resolution I can get. So now if you think about this, taking either your finger or a very thin ultra-thin joystick, and being able to do very precise movements with just changes of your finger movement from side to side and around, you've turned your finger into a very high resolution joystick. The nice thing is this stuff is bendable, and it works when it's foldable. So if you look at this, I'm folding the sensor, no signals, but what's this? That's excellent. So it looks like the possibilities could be endless. So tell us what kind of applications you're targeting now. So we're here at SID, we're targeting displays here. So putting it behind curved displays, and we have one of our curved displays at the BOE booth, their force sensing over there is our technology. So it fits behind curved displays, also OLED. You have a display that's now deformable, you can put pressure through it, and you can sense that pressure through the deformation of that display. That takes the advantages of having a flexible display and doing something with that. Capacitive doesn't. Capacitive is a great technology, but it's one of those things that when you're looking for positive force sensing, this is something we can add to the mix. Excellent. Can you tell us a little bit about the power consumption for the technology? So the great thing is it's very low power consumption. And this is where I'm going to defer to you a little bit, because I'm trying to remember the numbers, but in its off state, right, it's virtually zero, because it's an open circuit. But then when you press on it, you're creating the circuit. We're talking about microamps of use to when you're engaging the entire circuitry, a milliamp. Got it. And you're consuming power only when you're activating the circuit. That's correct. And the rest of the time, as you said, it's no power being consumed. Is that fair to say? Yeah. So you mean you're still driving the circuit, you can, with power optimization, it's virtually zero. Okay. Yeah. Excellent. Thank you. Thank you very much, John. Sure, my pleasure. Good luck. Yeah, thanks a lot. Have a good show.