Home / Software & Service News / Apple: Display ‘burn-in’ could also affect iPhone X

Apple: Display ‘burn-in’ could also affect iPhone X

TwitterFacebook

It turns out Apple’s iPhone X display could have some of the same issues as Google’s Pixel 2 XL.

The iPhone X could be impacted by “burn-in” and other “visual changes” that commonly affect smartphones with OLED displays, according to a new Apple support document.

Burn-in happens when parts of an image remain on the screen after you’ve navigated away from it. The issue commonly happens when a high-contrast image is on the display for a long period of time and, most recently, has been causing a huge headache for Google as some Pixel 2 XL owners have reported burn-in issues after just a few days or weeks with the phone. Read more…

More about Tech, Mobile, Gadgets, Iphone X, and Pixel 2 Xl
Click Here For Original Source Of The Article

About Ms. A. C. Kennedy

Ms. A. C. Kennedy
My name is Ms A C Kennedy and I am a Health practitioner and Consultant by day and a serial blogger by night. I luv family, life and learning new things. I especially luv learning how to improve my business. I also luv helping and sharing my information with others. Don't forget to ask me anything!

Check Also

Kevlar cartilage could help you recover from joint injuries

It can be difficult to fully recover from knee injuries or other damage to your joints, if just because there hasn't been an artificial replacement for cartilage that can withstand as much punishment as the real thing. That may not be an issue in the long run, though: scientists have developed a Kevlar-based hydrogel that behaves like natural cartilage. It mixes a network of Kevlar nanofibers with polyvinyl alcohol to absorb water at rest (like real cartilage does in idle moments) and become extremely resistant to abuse, but releases it under stress -- say, a workout at the gym.

You don't even need a lot of it to replicate a human body's sturdiness and overall functionality. A material with 92 percent water is about as tough as real cartilage, while a 70 percent mix is comparable to rubber. Previous attempts at simulating cartilage couldn't hold enough water to transport nutrients to cells, which made them a poor fit for implants.

There's a long way to go before the material becomes useful. Researchers are hoping to patent the substance and find companies to make it a practical reality. The implications are already quite clear, mind you. If it works as well in patients as it does in lab experiments, it could lead to cartilage implants that are roughly as good as the real tissue they replace. A serious knee injury might not put an end to your running days.

Source: University of Michigan, Wiley Online Library

Leave a Reply

Your email address will not be published. Required fields are marked *

css.php