IPhone 7 has not been published, but we have heard rumors of the iPhone, which will be published in 2017 and beyond. Apple said in future versions of the iPhone on a flexible OLED display to work in a secret laboratory, which opened in Taiwan. Apple developed also a more complicated version of the liquid crystal display, is working on a technique called micro-LED.
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From the end of 2015 Apple OLED partnership with LG Display and Samsung began to pursue. Apple finally signed a contract with Samsung in April 2016 that Samsung can see an OLED screen offer 5.5-inch panels for Apple's upcoming iPhone.
Rumors suggest Apple may well also plans in AMOLED supplier AU Optronics as a source for future iPhone screen shows Apple tracking to invest several options for next-generation display technology.
Both Micro-OLED and LED technology eliminates the need for the backlight in traditional LCDs used, possibly would allow Apple to reduce the size of their iOS device. Micro-LED suffer from low yields and OLED has a shorter life, so they are both technologies that are not quite ready to upgrade iPhone in the near future.
Rumors initially said that Apple introduce an OLED display in 2018, but these plans were encouraging. Apple can now aims first OLED display on the iPhone at the end of 2017 instead of 2018 to introduce.
Rumors suggest the iPhone in 2017 or 2018 may contain a 5.8-inch OLED screen. A display experts speculate that an option for a screen of this size could be an iPhone with a screen cover.
When applied to a height of 5.5 inches of existing iPhone is 5.8-inch screen, like Apple rumor to work on each side leaving additional 7.25mm screen which can be used to wrap the edge of the tool. Thus, the screen on the front and sides of the iPhone will expand, it can move and button-based permit page. We do not know what shape the iPhone with a sidebar might take, but the size of the rumored 5.8-inch screen is about the right to add a side wall on the current generation iPhone.
Apple said to plan out all-aluminum body to move away, read opting glass-backed design in iPhone 4 and 4s used and take "to the next level." A return to the vitreous allows Apple itself to distinguish it from the competition, which were switched especially on aluminum. Kuo does not believe this will greatly affect weight and durability, reducing slimmer with weight gain by adopting OLED screens. wireless charging and recognition biometrics (facial or iris) are also provided Kuo predicts 2017 iPhone.
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Edge-to-edge iPhone Concept image of Concept Iphone
Apple already has on the development and integration touch display driver (TTDI) chips since 2015 that the company's iPhone makes it possible to introduce without home button, instead of integrating the Touch ID fingerprint recognition in the screen of the device.
occur based on some significant changes were in 2017 rumored Barclays analyst Mark Moskowitz believes Apple is the traditional cycle of "S" skip its upgrade in 2017, a jump directly to the iPhone 8 instead 7s iPhone. Moskowitz also predict the iPhone OLED screen is included, the form factor has really changed, and there is no home button.
This is consistent with rumors points to a significant change in the 2017 iPhone and a simple change of the iPhone 7, and there is a possibility, since 2017, the 10th anniversary of the iPhone is Mark.
Samsung is rumored in 2017 Apple ships begin NAND flash memory plan began, suggesting it could be ready for the 2017 iPhone on time.
TSMC currently finalizing the design for the A11 10-nanometer chip, which is intended for the 2017 iPhone. TSMC is expected to provide in the first quarter 2017, first on Apple 10-nanometer chip samples A11 available.
Apple also work long-range wireless charging technology, is on the rumor that can be quickly inserted into the mobile phone as 2017. Long-range wireless charging superior to many existing wireless charging method because it does not require the device to the source or the charging mat so close.
There are several obstacles to overcome before the technology, such as loss of power transmission efficiency may be applied, which increases between the transmitter and the receiver when the distance occurs. This causes the battery from the charging source to load more slowly.