5.7 qhd tft display for sale

The display is a 5.7-inch TFT LCD effort boasting a QHD (1440 x 2560) resolution. Also adorning the front of the device is an 8-megapixel selfie camera, while the dual 12-megapixel main shooters tout f /2.2 aperture and dual-LED flash. Indeed, the rear camera ensemble sounds rather fanciful, and notably includes a laser focus feature enabling 3D modeling. Honor touts the V9 as the world"s first 3D modeling smartphone, and offering users a chance to 3D-print stuff they"ve captured could be a very interesting selling point. With companies now venturing further left-field with quirky features to entice consumers, though, we"ll reserve our excitement until we"ve seen the V9"s 3D capabilities firsthand.

3D modeling camera: because modular smartphones are just sooo 2016The Honor V9 gets a sizable 4000 mAh battery, which is the same capacity as the Mate 9"s juice pack. We managed to get 12 hours" non-stop usage out of the Mate 9 in our battery benchmarks, which saw it comfortably outlast the iPhone 7 Plus and Galaxy S7 edge. While the Honor V9"s QHD resolution display is likely to eke away battery at a quicker rate than the FHD Mate 9, their comparable specs and Huawei association should ensure that the Honor V9 gets a decent innings.

The whole of that statement, which occurs at about the 4-minute mark, is true for now, but the Samsung part is unlikely to last. In China, BOE seems on the cusp of mass production and others there are pursuing the same path. However, I see Chinese advancement as a double-edged sword, at best for UDC. Finally, it remains to be seen just how big the VR market will become and whether or not it will be best served by micro-displays, rather the ones used in initial headsets like the Rift and HTC"s (OTC:HTCXF)Vive. Other options, like augmented reality headsets, as exemplified by Microsoft"s (MSFT)HoloLensand a newprojectfrom Intel (INTC), probably represent a broader set of long-term use cases. Such approaches offer more opportunity for other technology companieslike MicroVision(MVIS) and eMagin (EMAN) than for UDC.For now, I see Apple"s (AAPL) need tomake up the gapin screen technology as most important. Conflicting rumors continue to circulate about AMOLEDs being supplied fromKoreaorJapan. The latest supporting evidence is areportout of Japan indicating that JDI (Japan Display, Inc.) is in talks to buy JOLED. The implications would be huge, especially in light of the recentfallout between FoxConn (OTCPK:FXCOF) and Sharp (OTCPK:SHCAF). Government-backed JDI is the other main supplier of LCD screens to Apple, along with LG Display. JOLED was alreadycommitted to start producing AMOLEDs late this year, but this move makes it look like the whole of Japan is ready to throw in the towel on LCDs and bet the farm on the newer technology. The Japanese have had superior backplane technology for years, but they probably need help either from Korea or Taiwan for other areas of the AMOLED stack. Now, a Japanesestartupaims to commercialize blue emitters by 2018. What"s more, it is specifically stated that these emitters will be used for screens, as opposed to the light blues being developed in the EU, which would be used in lighting.

Given LG Display"s confirmed list of TV customers and substantial production lead in that area, I continue to think that LPL embodies a far surer means of profiting from the rise of AMOLEDs. For those with more risk tolerance, I think AUO offers the most potential bang for the buck. AUO"s price to book ratio is just 0.46; so, at less than one-tenth that of OLED, I see it as a safer deployment of capital as well. I anticipate markets behavingmuch differentlythan they have for the past three years. The huge post-earnings drop in OLED shares highlights the valuation danger, despite their subsequent recovery. Investors would do well to take off the goggles and look around.