 So we right here the Tianma booth. So hi, so who are you? Bob Nunhouse. I'm a senior FAE manager for Tianma up in Santa Clara, California. So how soon are we getting these phones with the flexible OLEDs? Well, actually these are these are all prototype stage this particular display has a has a strain sensor actually integrated into the panel and then has feedback control to the actual Contents So that's definitely gonna happen when you get the flexible phone then the whole UI pops up when you fix it open well again, just ideas ideas on how you may affect UI as an example and the right here. There's another fixable Band radius And we can do up to 10,000 And the OLEDs don't get damaged or anything? No It's just gonna keep on closing so you can totally like a folder put it in a pocket 3 millimeter bin Nice from the top, that's right. So why are so many companies are making a notch? Fones you have some not yeah, well, this is yeah, this is just an example showing the wear at the earpiece would normally be so There are different variations which I see coming up that don't have the notch This actually has an integrated pressure sensor. You can see here how the pressure indication at the bottom All right We did again replay Pressure so it's the flexible OLED with a integrated force Yeah, force that you have some smart smart phone display is in that corner We can come back to here you have some Display of the hole so you asked about the notch and as you can see in the graphic in the background Is that the problem with the notches? It actually intrudes into the actual visual image itself and a lot of people don't like that. So there is a way to pattern the OLED display to provide an opening that you see right here Which would be used for a camera camera module Nice. Yeah, I think aesthetically a little bit more pleasing and then another So yeah, very similar, but in this case now we have a cut out for Fingerprint sensing So we provide a fingerprint sensor in this area here As a combination of not only display but sensing and this is a no-knots Like a no-knots. Yeah, this one. This one is not all that is actually based on low-temperature polysilicon 300 it's a very high contrast ratio at 1600 and Very wide viewing angles as well And you have those round Space yeah, they're more novel than anything But they're in the market, right? Yes, these are actually the market It really just demonstrates that we can that we can do round displays The kids are learning with this right And let's let's walk around over here. There's some more smartphones. You have A no-knots Yeah, this is no-knots. This is Phil display the one to your right will be same version But with the notch again shows you the earpiece here Amoled Another amoled, this is real high definition It's not a simulated And it's it's working yes So all the icons are smaller Just a couple examples of some Displays that are actually being used currently in smartphones These are five and a half inch Displays that are power doesn't look like it's powering No power This this display is actually quite interesting This particular panel this 4.2 inch amoled came out of our Japanese prototype line and it is a Attempt to Integrate into the automotive area which requires a much higher temperature So this is a reformulation of all lead to withstand Right now Operating to 1,000 hours at me 50 10,000 hours at room temperature Nice So that's some stuff going on with the automotive you're talking about you have more right here yeah, and this is This is really kind of a technology idea of you know side view mirrors Which is that idea has been around for a while with cameras and what this shows is what? This is a single laminated Single lamination so what we can do from a direct bond And Some more stuff for the car Yeah, this is this is this demonstration really shows local area dimming so they use mini LED and This is the actual image and this is what the backlight is doing itself So you can see here the lighter area that was picture So this has 240 different individual areas that are independent It analyzes incoming frame data and then varies the backlight according to luminosity That just improves the contrast a lot and the blacks are better quite quite a bit better Yeah quite a bit better and also a little bit of power savings as well And it equals kind of some of the old that a little bit Yeah, I mean obviously the target is to is for alternative technologies to compete with the lead This is This is what we call our free farm display. Yeah, and it's really used to demonstrate that we can do really any shape This display is a little bit more interesting there because they added a hole in the center where they combine Mechanical sweeper for the So, you know for that it's what they find is some people don't like pure digital displays because there's no three-dimensional information So they can actually add a mechanical sweeper The second day Is it the whole devices of vibrating yes So everywhere the field can be can be felt press Where was a display like this be used Well, you know, I I don't know again. This is prototype. So the application is not really been defined yet It's really to create ideas similar to what you're seeing And right below there you see the wheels So you can do all kinds of shapes Be on this. This is a privacy filter I just done electronically. So the left right Viewing angles are actually decreased depending upon the electrical drive to the privacy filter And this is an eighth based Filter actually So how do you activate deactivate is it was it almost yeah, actually so what I can show you here is with no electrical drive to the to the Ink itself the ink disperses when it disperses it creates these black fields It doesn't allow for white viewing angles when you Ink then moves towards the polarized and positive Which opens up the viewing and it is possible to turn it on and now it's just actually cycling right now It's going as narrow. If you stand to the side, you'll see a transition as narrow There's no way to see it or you can see it from the side. You have to wait. It's cycle back to the white alright We can go Tactile Yeah, so this is tactile feedback and there's there's two modes here one is an electrostatic sensation Which you can feel as you move across the display actually You can feel a difference in Resistance as you come across that select electrostatic sensation and this is going locally on the display Yes, yes, it's it's Graphics dependent so you can only feel it during motion over specified areas And then added to that we have happy feedback which is vibrating the entire panel So as you press you're getting happy So this is a p-cap sensor that multiplexes both the electrostatic feature plus the Happy feature at the same time so when I'm scratching when I do like this It's only under my finger that the haptics are happening not the whole display. That's correct. Only this is the whole display So how's it doing that? Well, so this is a p-cap sensor and in the p-cap sensor the pattern itself is multiplexed with the electrostatic Sensation that you get as you move And then after you locate what you want to do you're pressing down and that p-cap Sensing location is activating the piezo driver underneath the display To move this vibration plate And that's what's causing the the haptic feedback. Are these in the market yet? This is not again prototype That's a prototype to the SID display week, right? Yeah, it's the coolest place to come to see the the future of displays 21.3 Larger panel. This is using a quantum dock To give very very high color saturation as you can see here No, this is a hundred and twenty percent of NTSC color standard, so very very color saturated This is a quantum dot film based product So is it the best LCD in the world That's what best LCD that's possible to do Well hundred twenty percent of NTSC. It's extremely high color saturation. So the quantum dot technology is Very interesting right now. The problem is it's been is that it uses cadmium cadmium has been a hindrance for the Rojas compliance But now they have a what we call reduced cadmium technology which is Rojas compliant it meets the it meets the maximum standard So the compliant of what? Yeah Rojas is the reduction of hazardous substances so it was harder hazardous now you get it down Yes, now it's down within acceptable levels So you hazardous in terms of it. There was a leak. It could mean bad. No in Disposal from a worldwide perspective landfill landfill type of perspective. That's right 21.3 inch it's high contrast this one is 1,100 nits 2,001 contrast ratio obvious uses this for medical imaging in that particular case Very high resolution 2560 by 2048 And this looks pretty high color for what it is 70% of NTSC You have some high brightness On the walls is our outdoor viewable products This is a combination of taking a standard transmissive display Adding a backlight recycling film to push more light through the display as well as an Proprietary AR coating on the outside. So most of these straight out of the box are 1,600 nits 800 to one contrast ratio So outdoor view What do you have here with the reflective? Yeah, yeah displays are kind of making a resurgence The improvements has been what you see here is this is like 14% reflection ratio But when you move over to the smaller displays here, they've actually been able to improve reflections ratio It's 25% right of reflection ratio So higher reflectivity this one incorporates both a front light And a very very high reflection So there's a front light front lights actually used for crossover or nighttime Then If you go outdoors, yeah in pure reflection mode, that's ultimate power systems But at night you wouldn't have ambient lighting So you would need to supplement that and we do that by creating a front light in this particular case So you have more high brightness More hybrid more hybrid. That's right. We move into Actually This one is what we call 7g panels so it can withstand seven g's of shock And it's primarily for this type of application industrial And some more Projected capacitive displays. This is our second generation displays intended for Wet use so what we have here is this is difficult for most displays is When you have water on the surface we have a test of the salt water clear water D-fib gel Ultrasound gel and also Kavisai, which is a medical disinfect which is quite good You can do air bonding. We do both. We do both perimeter air bond and direct bond Get the highest quality. Yes. Yes for outdoor viewing would be for optical bond as an example This is demonstrating Custom cover glass. We actually have an extended cover glass here with the printed printed black matrix This is actually an agey outer surface Typically, we leave with film solutions like an AG film or an AR film in this particular case We did a glass solution AGH. So some customers need that for Reliability and long-term usage What you see up here is another P-cap control, but this one is is extended field you see here. I mix There's some sensor in front. Yes. Yes an extended capacitive field, but it also combines Regular p-cap touch features as well. So this one is extended field And on the wall you have some some other These are also targeted for the medical applications Full high definition wide format Both of these panels come in either embedded display port interfaces or LVDS 27 inches 4k by 2k display so very high resolution We laminated a piece of cover glass with a black nature sauna a lot of people like this look We can also offer this type of display with a p-cap touch sensor on it as well This is a new 30 inch primarily targeted toward radiology What the radiologist wanted was to X-ray images side-by-side to do a be comparison The reason why that's important is the way it used to be is a radiologist would have two Independent displays the problem with that is as they age they shift in color temperature So doing a B is very difficult. They're by moving the same image on the same display Makes them comparable And here's a special floating display What is it floating that's happening right here Well, yeah, it's based on what we call our horizontal double-density pixel structure, which is in essence is taking a vertical Splitting it at the sub pixel level and adding a lenticular lens on top of that to direct the left eye right eye Is it like holographic display? It's an auto stereoscopic Angle angle all right, so There's lots of stuff happening with Tian Ma and you are this is your locations So we're in Shanghai Chengdu Wuhan. These are Manufacturing sites as well. We have office in Japan Of course, we're in the United States in Santa Clara and in Chino and another office in Germany as well