 So is this a new USB logo? So what we've just introduced is a new USB charger logo. And the nice thing about the new charger logo is for all the new Type-C chargers, you'll be able to actually understand how much power you're getting. It's built right into the logo. It gives you just like a light bulb model. Very simple. The more watts, the more power the charger can support. The more charger devices it can charge. Or the faster it can charge. Is there a... If your laptop is mess, is there safety is more important than that? Correct. The new USB charging uses a powers delivery protocol which negotiates the proper charging model between the notebook and the charger or between the phone and the charger, whatever kind of product you're charging. And it's all done with a very elegant protocol that takes care of all the safety issues and compatibility issues. And if you were to try to charge something that needs more power, it's still going to charge just slower, right? Correct. The chargers always work back with compatibility to the original USB. But clearly, if you have a newer product that can use the new protocol, it can take advantage of the charger and get the higher performance. We're also introducing what will soon be a fast charger. So where it says charger right now, you'll be able to get one that says fast charger. And in that case, what you're going to be getting is the enhanced phone charging algorithms where now you can charge your phone in a matter of minutes because the phone can control very closely the charger's capability for current voltage very dynamically. And now they'll be able to use a standard space charging method rather than a number of proprietary methods. So one charger... Right. So now we expect to see the big companies like Apple and Samsung and Huawei eventually to all move to a standard space charging based on USB fast charging. And it's just one type of fast so there will be several types of different fast chargers because maybe somebody comes up with something even faster. Well, what's really cool is what they're doing is they're controlling the voltage and current to their own design profile. So each manufacturer can be innovative in what he's asking the charger to do, but the charger can just adapt to whatever he needs because essentially he has a fine-grained control over voltage and current and whether it does current limiting or not whether dynamically just adjust voltages right in the charger for you. So what's really cool is each vendor can still innovate on his battery technology and protocol, but one charger does all that. It's future-proof though. It is. It's effectively future-proof. So they OEM to change battery technology and then choose to use a completely different charging curve in profile. Could it just update the firmware and optimize things in terms of charging speed? Correct. In the phone, even the chargers are folk-programmable. So the chargers a lot of them have firmware. They'll be able to update the firmware of the charger as well. Is it scary to update USB firmware? There's security capabilities built in. Have you done that before? Yeah. Well, some of the proprietary vendors used USB to update their firmware. So like Intel or somebody Well, the OEMs. Like Apple and those kinds of people. Do they need to use it? No, no, no. They're upgrading like the firmware and the device. How the device works. But, you know, they use encryption and they check some, so it's all secure. It's not something you and I can do. What's the firmware going to do? Well, right now these chargers are designed to a current version of our specification. As the specification evolves they should be able to evolve the actual product they already sold by upgrading its firmware. So if we define some new kind of profile they'll be able to program it in through the charger. Oh, you know, get it over the air. Go to your phone. The phone talks to the charger. Loads it in. Do you want to color code the cables or something? No, no, I'm just wondering because let's say you're in an airplane. How would you know that the cable that comes out of your seat is going to be a fast charger or not? Maybe there should be a standard to call it. Like the blue was used to be strong, right? Well, in this case it's not the cable that's doing anything fancy. It's up over here. The cable is a standard cable. So this cable is the same cable no matter what. It's independent of the charger. On the phone it could pop up and say something like they do. Some of the phones they show an icon that says fast charging. Well, the protocol allows the phone manufacturer to communicate to the user everything that's going on. So yes, you know, Android could choose to put up a nice display that says you're using so many watts and they might even tell you, oh, by the way your charger is only limited to this much power. If you could get a charger with the logo that has a larger value on it I can give you a faster charging experience. So let's say there's a USB cable out of this one, right? If I touch the tip is there any risk that we're going to get a lot of electricity? It's always turned off. This socket even when plugged into the wall is turned off until you actually connect two things together and they talk to each other. So they turn to it first. So they first do a logical communication before it actually puts power of any level. Nobody's ever going to get an electric charger. Not on an open circuit like this. How about the cable? Even at the end of an open cable there's no power. That's awesome, right? That's a great design. The old USB was always powered. Which old? Standard old. This socket here is always on. That one's always on. That's Type-C. Type-C is this hard one. Alright. Just to check some of the other stuff you're doing here. You show us the displays. What we have here are phones that are showing use of display port alternate mode running over USB Type-C. Not only are the phones able to get power from the display, they're able to actually display video and they're able to write audio. In the case of the one on the far end of the table it's actually running the keyboard, the mouse, you can plug a thumb drive in with one cable doing everything. In the case over there you'll see that it's plugged into the wall so we're powering the phone. And then the phone is actively using that keyboard display and behaving like a PC. In this case the phone is powering the monitor. That monitor has no power plug in anywhere. The phone is actually able to run the monitor for a number of hours before it'll run out of power. We're currently estimating based on what part's that this can run for two to three hours and run display. Now, obviously over there it's running forever because it's getting its power from the wall, right? So it's a different usage model. Is this a a thick client laptop? No, that's just a keyboard display mouse with a battery. That's all it is, FCHP laptop. It has no CPU at all. The one they launched for is for Windows particularly. But it works fine for the Android too. We're running it with an Android-based phone, yeah. Does the Razer phone have a desktop UI? It looks like an old Android UI. Yeah, it's running an Android UI. Here's where I can desktop UI right here. This is Android. It is a... Basically it's a... So this is big but touch bad. In theory you could also touch back touch. Yeah, in theory. A sense of USB as it goes back. So, you know, I can... But here is powering the display twice, like one way and like the computing and the power too. It's sending power and display. Running the whole thing. Yeah. This is my personal one. I bought this last summer. It's available at Android. This is using DisplayPort Alternate Mode and it's USB power delivery compatible. Do you see how many people use this? The laptops? That's what I use it for. So this is what I use at home when I'm working at home. I just plug one cable into my notebook and I've got a dual screen monitor. I mean it works. I've got four monitors all running off one USB. But at home... Two abs or something. It's from 900 Moons. Yeah, two too. So it's running about... Not quite 5 volts at 900 Moons. That's not so much, right? No. That's like 4.7 watts. This is a low-practice radar. It's 50% right now. Did you get the graph? It was the what? Yeah. So it's got a... It's a program though. Yeah. Their UI is pretty simple. Crank it up. So you can see it's... It's kind of... 0.99 almost. That's a little higher. So yeah, it goes up again. This monitor will range between 600 milliamps and about 1200-1300 milliamps. At absolutely full brightness.