 So we're here with Realtek and this is the USB Type-C MiniDAR solution. So who are you? I'm Jonathan and I'm the Realtek PN who is in charge of the USB Type-C and also the USB Hub. So this is USB Type-C. It does VGA and USB Type-C again. Yeah sure. And there is also USB Type-A. USB Type-A 3.0. Yeah 3.0. And how about HDMI you can do too also? Yeah we can do it also. We just replace this VGA interface. So what's on the board here? Okay you can see the slide here. So we have the RTD 2166 and the RTS 5411. And the final one is RTS 543. So how does it work? Okay actually the Type-C will our Type-C Pro controller will communicate with the upstream devices, upstream the host. Okay then we can connect with the downstream devices such like a USB pen drive and we can transmit the video to a monitor. So this VGA interface and also we can connect to another Type-C device such like a Type-C power adapter or the Type-C pen drive. And right here it says this is the USB to VGA only. Yeah. And it can do up to this kind of resolution. And this is the mini-dark. Yeah this mini-dark. Actually this mini-dark includes the VGA interface and the USB-C and also the USB-A. So what kind of CPU is it? Is it the CPU or what is it? What is it? Okay actually the main function is our USB hub and we put another display port to VGA translator here which is the RTD 2166. And we use this RTS 5403 to communicate with the upstream Type-C host and also the downstream Type-C devices. But what is the protocol? How does it work Type-C? Okay it works with the the communication flow is start by the CCP. We call it a communication channel. Okay then once the communication channel was established so it will go into the PD controller then the PD controller will do the Type-C protocol. So it's Type-C protocol and is it the translator of the protocol to something else? Yes. Is it analog digital or something? Only digital. Everything is digital and it's translating the protocol of USB Type-C to something else. Yes. Yes. And very fast? Yeah it's very fast because the Superone actually the Type-C is the spec of the USB Superone 1 so the rear-ice bit is very fast. 10 gigabits? This one is 5 gigabits. 5 gigabits. But USB Type-C can do 10 gigabits right? Yes. How can you make 10 gigabit version? We have to change another hub because this hub was only the speed is only the 5 gigabits. So this is a Microsoft phone. This is the Windows continuum solution. Yes. And what is this? Okay this one is we call it a Type-C monitor. Yeah because we combine our Type-C dock okay here this area with a scaler this area. So you see we just connect with this Type-C port through this Type-C cable to the Microsoft 4x4 okay yeah. So how about this is a new market right? Yes. And there's a competitor is a TI and Cypress. Who's the leader right now? Right now I think we are the leader. You're the leader? Yeah because our chip is high integrated compared to the TI and Cypress because Cypress only do the protocol part but they don't have the data part okay so but we do both. We do both? We want chip. How do you know how to do this? Is this a specialty of Realtek? Yes yes because we actually we designed the hub first so we have the experience of the hub design so we just move forward to the Type-C port controller so that's why we can get a high integrated chip. How does it work to make a hub? USB hub right? Yeah. How does it work? Okay actually to share the data with the upstream actually with the host to all devices so the inside the hub we design the we design a five chip we call it physical okay so we can receive the data then we transmit to the host yeah. So is it possible you can have many more solutions than only this? Yeah we already have many? We already have many because Type-C has a lot of applications such like this Type-C monitor and also the Type-C mini dock okay. This mini dock have only three ports right? Yes. But do your customer already implement many more ports different things? Yeah yeah we already do. Yeah because we have the Type-C docking in another side yeah. Yeah okay let's check it out. So what is this? Okay this one is the Type-C dock okay you can see this is the USB port right? Yeah okay it connects to this laptop. This laptop also has the Type-C port. This is my laptop? Yeah this is a smaller one. Yeah this is a smaller one. So it connects there okay? Yeah and you see it transmits the video to this monitor and we connect the USB pen drive here so it can also read and write the data inside. So this this dock has a lot of stuff going on. Yeah the Ethernet? Yeah Ethernet. How many USB? Actually we call it 7 port because like this LAN port we use the USB to the LAN. Yeah the total is 7 port. 7 port yeah. What are we looking at here? Okay we 5th port 11 is our hub okay we've got three hubs. Three hubs? Why do you need three hubs? Yeah because it's a very powerful dock. We just want to show our customer what we can provide to our customer. Yeah so three hubs and some other bunch of stuff. Yes yeah so 5203 I think you guys already see in the mini dock right? Yeah. So it do the communication to the Type-C port and we also have the 5200. 5200 actually is also a Type-C port controller but it's our full function one so it can do also the video communication. Yeah and you say it's fast? Yeah it's very fast. This is the fastest one? Yeah our our latest one is 521. Okay this one is we got we got a we got a BC over a golden over in this computer. Who's BC? BC is best choice. Best choice. Yeah. And so is native Type-C support? Yeah. Is it a hub? Yeah it's a inside it's a 3.1 generation 2 hub so the rewrite speed is very very fast you can see here. 800 megabyte per second? Yes really right. From a smartphone? I think because typically right now the 3.0 the rewrite speed is 280 so we can see it's more two times faster than the 3.0. Two times faster than 3.0? Yeah because 3.0 is 280 rewrite speed. Yeah. So 10 gigabit per second is possible? Yeah this one is actually yeah. Are you doing anything with Thunderbolt? Actually no because the Thunderbolt is the such a it's a protocol controlled by Intel. Intel they don't give to anybody? Yeah. Okay very interesting but USB Type-C in the future can go faster than 10 gigabits? We think so but we think the USB IF may have the next generation of the USB spec yeah we're also looking forward for it. All right is this also the same or different? This one is actually is 521. It's a it is a generation 2 hub. What is this port here? Okay this one is powered because we got 2 power. We only use the power so we don't only use the 1. Yeah yeah it's easy. All right so there's a lot of USB Type-C maybe going to happen in the future right now it's only Microsoft? Right now actually the Apple. Apple also has the MacBook. Only MacBook? Yeah and MacBook and the Google has the Chromebook and the Microsoft also my my cell phone my Google cell phone this is also the Type-C. This is a Nexus 5X. But there's no display output? No display output. No USB hub? No USB hub yeah only charging only charging yeah that's not very interesting yeah they only take the disconnector. Why they don't have more than charging? Do they have a real tech CPU and a phone? No. To control this or no? No. Who's making the SSE here to connect with you so you can do everything? What do they need? Actually right now the mobile phone platform the CPU maker actually is MTK or Qualcomm yeah or Qualcomm yeah. So Qualcomm can support everything? But they only do with Microsoft? I heard they have such a plan to to embed the Type-C inside their CPU. So MediaTek, Qualcomm, maybe Spectrum yes and these guys they need to support everything from the phone otherwise they only charging yes and then that means it will be very very popular on Android maybe yeah to have crazy docs with many many solutions yes and real tech would be the leader yeah yeah so how does a customer come and work with you how does it work? Okay actually because the Type-C docking is quite a little bit complex complex so actually we will discuss with our customer their application what they need and then we will give them the advice to suggest them how many ports is optimized can be optimized so we are helping them to design the hardware also hardware and the firmware yeah. How much power is needed for a dock? Okay actually I think this dock can offer at least 60 watts single port yeah with a single type support. So that's a 5 volt 3A? No 60 means the 20 volts with the 3A pairs 3A 20 volts yeah yeah so it's a lot of power yeah yeah yeah yeah because can it do no power? Yeah sure. And still have a lot of power? Yeah because the Type-C has the spec of the recorded PD and the PD has the PD capability inside the PD controller so it was customized so we will ask our customer how much PD profile they want okay so we will put that into the PD controller. And your customer is there many customers is it like many companies want to do this already? Yeah yeah you can see only a few yeah this one is already the real product this is the Type-C Type-C monitor yeah yeah it's already used our solutions the Philips yeah Philips and Type-C in there I pushed the wrong place okay cool and so the monitor guys but also the dock yeah also the dock guy manufacturers yeah but many already considering or many doing it? Because right now the PC market adopted the Type-C I think the speed is slower than we expect so the dock solution also the train is also very slow but the monitor maker they think they have to include already? Yeah yeah. Should be future proof? Yes yes all right so it's real tech part of Type-C consortium you influence how they make Type-C or is it perfect what do you think about Type-C is everything is perfect is great? Yeah we actually Type-C can provide the customer several scenarios such like this one you can when you go home you can connect your laptop with your Type-C monitor at that time you can control your laptop by the monitor and at the same time you can charge your laptop I think this scenario is very very convenient yeah