Panasonic has developed a new type of IPS liquid crystal panel that has a 1,000,000:1 contrast ratio, as well as a peak brightness of up to 1000 nits. Many LCD displays often advertise such contrast ratios which are measured against a dynamic backlight and are essentially meaningless, but in this case Panasonic is talking about the static contrast ratio of the display, which only reaches as high as 2000:1 on a typical IPS display. Little information is available about the technology at this point, but Panasonic claims that it is achieved by implementing pixel-by-pixel control of backlight intensity and that panels featuring the tech can be produced using contemporary LCD manufacturing facilities.

One of the key advantages that OLED displays have over LCD displays is extremely high contrast ratio that results in superior blacks. The reason why OLEDs can display deeper blacks is simple: such panels do not use backlighting and can completely switch pixels off when they need to display blacks. By contrast, LCDs use backlighting that cannot be turned off on a pixel-by-pixel basis, which is why in many cases blacks look like dark greys.

In the most optimal case, an LCD display will use full-array backlighting, where there are several LEDs placed directly behind the liquid crystal layer. This allows for a degree of control by performing local dimming of certain areas, which is how LCD televisions have managed to meet the standards required for HDR certification. However, the precision of the backlight control is not close to that of an OLED display which works at the pixel level. Even more common, especially in monitors and less expensive televisions, is the use of edge lighting where LEDs are placed along the edges of the display and the light is distributed across the panel using a guiding plate, which means you can really only control the overall brightness across the entire display.

As it appears, Panasonic has found a way to substantially increase contrast ratio of IPS LCDs using a high-brightness backlight and a special layer of light-modulating cells that enable pixel-by-pixel control of backlight intensity. These cells are made of light-tolerant liquid crystal material that has different light-transmission properties compared to those used in the display cells. The layer of light-modulating cells is placed between the backlight and the LCD cells and thus can control light leakage. At a high level, one could think of them like gates placed behind each pixel on the display.

Panasonic does not reveal many details about its light-modulating cells, but since it uses the term “cells”, it clearly indicates that we are dealing with a relatively thick layer of liquid crystals, not a thin layer of quantum dots (you can see an illustration from Nanosys (a company that produces quantum dot films that are currently used on Samsung TVs and displays) to compare “cells” versus “quantum dots”).

Usage of a high-brightness backlight and a layer of light-modulating cells enable Panasonic to build display panels with up to 1000 nits brightness as well as a static contrast ratio of 1,000,000:1. These figures mean that a black level of 0.001 nits should be possible, which is well beyond what even the best full-array backlit LCD displays can offer today.

Panasonic claims that the addition of the layer can be done using the existing equipment for LCD manufacturing, but it's not clear how costly the technology will be to implement or if it requires further components to be added to the LCD stack. The company plans to offer displays featuring the new technology for various professional applications, such as video production, medical, automotive, engineering and so on. Given the positioning, it is obvious that the price of IPS displays with enhanced contrast will be well above that of mainstream monitors.

Panasonic intends to start sample shipments of its new monitors in January, 2017, so the commercialization of the technology will not be too far off.

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Source: Panasonic

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  • SaolDan - Thursday, December 1, 2016 - link

    Neat!!
  • TesseractOrion - Thursday, December 1, 2016 - link

    Great stuff, hope it makes it to market soon, along with DP 1.4....
  • nathanddrews - Friday, December 2, 2016 - link

    Haha, you'll be lucky if it has HDMI 2.1.

    This is actually a very simple design: one IPS panel acts as the light modulation layer between the backlight and the IPS panel on the surface. Pretty sure this method has been employed through other combinations of display technologies in the past, but the low cost of IPS now makes this more realistic. Assuming both are commonly available 1,000:1 contrast panels, Panasonic are just multiplying the ratios together to get 1,000,000:1. Pretty sure 1,000 nits is just a starting point as well, no reason they can't get a brighter light source behind it all, but then that might affect the black levels. Even at 1,000,000:1 contrast ratio, .001 nits for black is still infinitely whiter than OLED.
  • Valantar - Friday, December 2, 2016 - link

    Well, adding another layer would block out more light (even while wide open), so sustaining 1000 nits with an extra liquid crystal layer (if that's what it is) is impressive.
  • austinsguitar - Thursday, December 1, 2016 - link

    :D
  • kpb321 - Thursday, December 1, 2016 - link

    Offhand it sounds like they've placed a second LCD layer between the backlight and the regular layer that doesn't have any color filters on it. I'm sure it's more complicated than that but it seems to be the basics of what they have done.
  • BlueScreenJunky - Thursday, December 1, 2016 - link

    That's what I understood too, and it seems like it should work provided you have a powerful enough backlight. I'm a little worried about power efficiency though.
  • Guspaz - Thursday, December 1, 2016 - link

    This would be primarily for desktop or laptop use, since most things smaller than that have moved to OLED already, and the thickness of the extra layers would be unwelcome.

    Desktop LCD efficiency isn't really all that big a concern (and if they're using LEDs, they'd still be far more efficient than CCFL backlit screens.
  • Roland00Address - Thursday, December 1, 2016 - link

    While it may work for laptop, I expect desktop and tvs will be using this and anything that cares about batteries will not. This is because any extra layers will mean you need a stronger and more powerful backlight to bypass it. Think of it as something similar to a filter with sunglasses, anyform of barrier always takes more power to get the same effective brightness on the receiving end.
  • Pneumothorax - Thursday, December 1, 2016 - link

    Agreed. This is dead in the water for laptops. Considering how laptop models already suffer with QHD vs FHD screens, the laptops would take even a bigger hit with adding another layer and brighter backlight. Also it goes against the stupid 'Thinner is Better' that's going around right now (I'm looking at you Apple) that's killing performance/battery life for the sake of thinness.

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