![]() ![]() ![]() In addition, with 2 layers of LCD for the backlight to have to penetrate, when 'black / near black' is trying to be displayed, the light of the backlight has a far far harder time getting through allowing for much deeper blacks close to that of OLED.įor example: (purely exaggerated figures for example purposes) Using a traditional FALD backlight with a black and white LCD to in turn backlight a traditional full color LCD layer (minus the normal LED backlight) has the result of an effective 2million+ zone local dimming feature for 4k displays. I think, personally, a more interesting development in the LCD technology space is that of Hisense Dual-Cell ULED XD display tech. Micro-LED does not produce enough heat to cause damage to the screen surface, nor does the compounds used degrade at any meaningful speed when used vs those used in OLED. It was an issue somewhat common with CRT and Plasma. it is not physical damage of the screen caused by heat, which is what real 'burn-in' is, and was named so due to that fact. The so called 'burn-in' on OLEDs is in fact just degradation of that organic compound on a subpixel level. The artificial compounds used in micro LED displays, much like ur standard LCD displays, are far more durable, than the organic compounds used in OLED. ![]() No Mini/Micro LED will NOT suffer the so called 'burn-in' that OLEDs suffer from. ![]()
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