Forward-loving: Sony has unveiled a new display technique called General RGB LED backlight technology, which is expected to improve how colors are presented on the screen. This approach replaces the traditional blue LED in mini-LED TV with RGB LED, allowing backlight color filters or quantum dots to shine with a shadow of the right color without relying on the dots. The result is a rich, more vibrant color palette and a bright overall picture, potentially challenges the dominance of OLED technology in the market.
The leading screen technologies from mid-high-end TV are Mini-LCD and OLED. Mini-LED LCDs use hundreds or thousands of short LEDs behind an LCD panel, where accurate lighting is provided, which is excellent for HDR highlights without blooming. However, they are not correct.
On the other hand, OLEDs use individual organic LEDs behind each pixel, allowing better contrast and fine HDR, but they have a lack of mini-LED shine. Sony’s RGB LED technology tries to bridge this difference by offering better color breeding and brightness.
One of the major benefits of this technique is high purity and the ability to produce colors with Trueness. By allowing each RGB color to emit light independently, technology achieves high color purity, more than 99 percent of the DCI-P3 color space and more than 90 percent of the ITU-R BT.2020 standard. This causes vibrant, wide-colored gamal images, making them more lifelong and attractive. Sony claims that this technique “can reproduce honestly specific huge and gradation,” ensures that scenes such as bright fall leaves are presented with vivid details and nuances.
https://www.youtube.com/watch?v=- N04NQJG6OQ
Sony’s advanced backlight controls the performance of the technology panel. It dynamically allocates power to each RGB channel depending on the view, ensuring that the luminance is harmonious with color gradation. This approach prevents the concentration of light on bright elements, leading to flat images with microscopic gradation deficient.
Instead, it also distributes nuances and wide images in single-tone scenes like a dark blue sky. As Sony states, this technique also allows “delicate, even on large displays for nuances.”
The new RGB LED technology also claims impressive brightness, with a peak level over 4,000 NITs, a benchmark is usually seen in professional reference monitor. This high brightness and color accuracy and its ability to maintain saturation holds it as a strong contender against OLEDs.
Additionally, the technique provides better support for wide viewing angles, the weakness of traditional mini-LEDs, which often loses saturation or develops a green tint on the extreme angles.
While it is a Sony technology, it is not exclusive to Sony TV. Hisense has already demonstrated its ability to one of its models, which highlights its scalability and potential ability to the larger screen.
If RGB LED can achieve rapid response time for gaming, they can become a long -term replacement for OLEDs, a lot of OLEDs once crosses with plasma technique.
Sony is working with partners such as MediaTek to bring this technology into mass production this year, with a plan to integrate it in both consumer TV and professional content manufacturing performance.
