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Like heads and hamburgers, the key looks better as the key to better OLED. Oladin layers of the assembled on other layers of OLED can result in brighter and brighter footage. OLED screens, monitors, laptops and phones on TV already provide the best image quality and two new technologies of any screen technology and are preparing to improve.
LG’s last high level Oleed TV, G5The brightest OLED picture offers four-team designs resulting in CNET – more than 30% of the other OLED TV we tested. This is a jump in performance for some The best TVs Always.
New progress in phosphorated materials to add Luminescent material normally is potentially interesting to add luminescent material. This new technology will probably improve brilliance or develop more for more efficient images for portable devices. Does these advances only have hype? Probably no. It seems like a serious jump in the OLED performance. Here is it.
Heaps in the stacks
LG’s third gene gene Oleds, like previous generations, used yellow or green colored, plus color filters, red, green and blue lighted material to create red, green and blue light. The new design also uses a rare thing in the design of the TV OLED, from red and green olid materials.
To understand why this new design is noteworthy, we first shoot about the previous generations and talk about how to talk about how they work. Before the popular opinion, modern OLED TVs do not have light, green and blue OLED materials. Experiment with Samsung OLED RGB in the early days But he could not work effectively. LG, instead, the blue OLED plus made a slight version of a yellow or yellow-green OLED material. This “white” light will go through color filters to create red, green and blue, which creates an image. They will throw an extra white bottom pixel to improve the brightness.
Us He spoke about it beforeAnd even if it seems weird first, then it looked great and it just improved over the years. Samsung has finally made a different approach when they entered the OLED market again Qd Design. This is used only Blue OLED material and red and green added quantum points to create a rainbow of fruit flavors.
The problem is, on a technological side, you can only make it so difficult. There are various reasons for this to be at least longevity. Twice brightening candles, in fact, half burning half, half. Which engineers find, on top of each other, they do not work on each other on top of each other. As it is, “33 + 33 + 33 = ~ ~ 100” has advantages on “100 = 100”. There are more than all this, but how we came here.
Not only more stacks, different stacks
Thus, with consideration, I am sure you see how logical to add another layer (“33 + 33 + 33 + 33 + 33 = profit!”). When the key is the truth, here I find it especially interesting: LG RGB, as someone who wrote about OLED on OLED.
LG calls the new fourth gene technology “Preliminary RGB Tandemi”. Two stacks are blue and change the yellow-green layer for separate green and red sheets. (RGB returns OLED!) The biggest advantage here is a better colorful performance at a higher brightness level. There are open efficiency benefits to prevent yellow-green materials to create green and red. Blue has long increased in new design for the child’s child, brightness and longevity for OLED for a long time.
In CNET’s G5 OLED testsWe are 2,800 nite, this is 31% brighter with about 40% of the Samsung S95D, about 40% of the previous GEN LG G4. Although our tests correspond to the allegations of the 4,000 NIM claims of the LG screen, it still has a significant jump in performance after many years.
Phosphorus defect
Blue phosphorus in the Universal Screen Corps Laboratory.
LG as well as Has announced a different OLED progress It’s not ready for TV “General Time”, but at least if you are a nerd like me, it’s less interesting. The blue OLED materials used on television have been luminescent so far. This is mainly when they burn them when they give it energy and turn it off. Phosphorus defect Works a little different. Energy supplies and glitters on phosphorated materials. The more it glitters, but what makes the interesting is more effective than the luminescent of phosphorus. Luminescent “capture a momentary energy with the light of the” immediate “conversion of materials.”
The phosphorus blue OLED design was a little white whale and lg the Universal Screen Corps finally broke it (worked on) long time). The Eporesan blue layer combines with a phosphorus blue sheet, which is currently being combined with the yellow-green layer. LG, it combines about 15% of the stability of fluorescent materials with energy efficiency of phosphorum materials with low energy consumption. ”
Currently, LG intends to use these technology in demonstrations that require high brightness and efficiency, ie smartphones and tablet screens. Can four stack designs in new TVs of LG be changed to use a phosphorus for brilliance and energy efficiency? I would eventually assume this.
The new king, now?
Next Gen TV technology with many names: QD-EL, EL-QD, Nanoled, QED; Aka direct appearance, electroluminescent quantum points.
It would be logical to slide towards Samsung to see what the answer will happen. But I’m not sure of the need for one. At least now is not. His QD-OLED TECH is pretty new and very good. Quantum points are very remarkable and 100% efficient to turn a color of a color to another. The QD-OLED does not have the same potential restrictions as the color saturation at the high brightness level as the old designs of LG. Thus, Samsung can get more shine in theoretically while maintaining a heavier (in a possible and probable place), while maintaining color saturation. If the company switches to a phosphorus blue material, the development of LG can see the development of brightness and efficiency as claimed. We’ll see.
What we can imagine in Horizon is something that can potentially replace OLED. QD-EL, AKA Nanoled, Aka Direct View Quantum PointsUses electrololuminescent quantum points to create an image, no or LEDs are needed. Following the restricted technological demos for several years, there was only a prototype in TCL in CES 2025 (at least, all those who see) have a prototype in CES 2025. In the Society of Data Screen Screen weekSamsung showed 400 NIT QD-EL prototype. When it comes to this technique, it is great and bright. (We love our great and shiny liking.) For screen technology, it’s an interesting few years, it is definitely.
In addition to covering the cameras and showing technologically Geoff makes photo tours In the world, including cool museums and places nuclear submarines, Aircraft carriers, Medieval fortsepic 10,000 miles of road trips and more.
Also, check Budget travel for dummiestravel book and her Sold Sci-Fi Roman About city-sized submarines. You can watch it Instagram and YouTube.
