15.6 4k lcd panel hdr 10bit made in china

[UHD OLED 4K Portable Monitor] The Virzen 4K OLED touchscreen portable monitor adopts a 3840 x 2160 IPS A-grade OLED screen. The UHD monitor delivers a vivid image, clear motion and details with 100000:1 contrast ratio and HDR features. With 100% Adobe RGB color gamut, 60Hz refresh rate, Blue Eye Care tech, and 400Nits high brightness it brings transparent color performance and bright highlight details showcasing. With a response time 1ms.

15.6 4k lcd panel hdr 10bit made in china

* 17+ Years manufactureing and sales experience in the field of TFT LCD Touch Monitor / Open Frame Touch Monitor / Embedded Terminal Panel PC, etc. Mainly export to Euro countries, US, Japan, etc

Neway"s Marine& Military LCD Monitors and display are made specially to withstand rough terrain, harsh and rugged ambient environments. VESA standard mount are available on most monitors for quick an easy mounting. Also designed to withstand the harsh military and engineered to survive the most demanding applications.

15.6 4k lcd panel hdr 10bit made in china

– The 32″ 4K OLED monitor, the 27BP95E and 32BP95E variants with a built-in calibration sensor and included shading hood; all the other features and specifications are identical.

January 2021: Added more information about the LG 32EP950; it will have a maximum refresh rate of 60Hz and have VESA’s DisplayHDR 400 True Black certification.

January 2020: Acer announced the Predator CG552K, which will use the same OLED panel as the AW5520HF. Viewsonic announced their model as well, the ViewSonic Elite XG550.

The ASUS PG42UQ is one of the best displays based on LG’s W-OLED panel thanks to its 42″ screen size that’s much more usable for desktop use than the 48″ models and its heatsink implementation, which allows for higher brightness.

The monitor also has a decent peak brightness of ~800-nits for HDR content, while the brightness under SDR amounts goes up to 200-nits for a 100% white window.

100% White Window Max Brightness (SDR)100% White Window Max Brightness (HDR)10% White Window Max Brightness (HDR)1 - 3% White Window Max Brightness (HDR)

As it’s based on the same panel, the LG OLED42C2 is also worth considering. It has a glossy screen surface and a bit lower brightness, so it’s better suited for dark rooms. Further, it has built-in smart TV features and Dolby Vision support.

Philips also announced a monitor based on the same panel, the Philips Evnia 42M2N8900 with USB-C 90W PD and a more ergonomic stand. However, it’s going to be a lot more expensive at €1960. It should be available mid-January 2023.

The Dell Alienware AW3423DWF is based on Samsung’s OLED panel that’s enhanced with quantum dots (QD-OLED), which improves upon various aspects of LG’s OLED.

While the 3440×1440 resolution is lower than 4K UHD, it actually provides a higher pixel density on 34″ sized displays at roughly 110 PPI (pixels per inch), in comparison to 92 PPI of 48″ 4K and 106 PPI of 42″ 4K displays.

So, you’ll get more screen space and sharper details, as well as an extended horizontal field of view due to the ultrawide resolution. Unlike LG’s OLED panels that use WRGB subpixel layout, QD-OLEDs have regular RGB subpixels, but in a triangular layout, so there’s still some minor fringing on small text that can be alleviated via ClearType.

Samsung, MSI and Philips announced their models based on the same panel, the Philips Evnia 34M2C8600; however, there’s no word on pricing and availability.

This is the combination of specs many gamers have been waiting for, and while some users might have preferred a 4K model, 1440p will still look rather sharp and crisp on the monitor’s 26.5″ viewable screen with 110.8 PPI (pixels per inch).

Another advantage of 1440p is that it’s significantly less demanding to drive than 4K UHD, allowing you to maintain higher frame rates, while the difference in image quality between the two resolutions is not that noticeable in games and videos.

Other specifications include instantaneous pixel response time and infinite contrast ratio thanks to the OLED panel, as well as a high 1,000-nit peak brightness and a wide 99% DCI-P3 color gamut coverage.

If you’re not interested in any of the above-mentioned OLED displays, here you’ll find all the information about all other OLED monitors and announced panels. However, most of them are discontinued, overpriced, or have very little information available.

However, we don’t recommend these models as they’re terribly overpriced (~$3,000) and don’t even support HDR. You can get a 55″ OLED TV at half the price with better image quality and just as good performance.

BOE revealed a 32:9 ultrawide curved gaming monitor with an OLED panel. It boasts a 49″ 3840×1080 240Hz screen with a wide 95% DCI-P3 color gamut and a 500-nit peak brightness (150nits typical).

It boasted a wide color gamut with 100% Adobe RGB, 97.5% DCI-P3 and 85.8% Rec2020 coverage. However, it was very expensive at ~$3,500, it didn’t support HDR, and had a low 300-nit peak brightness.

4K UHD resolution on such a small display provides you with an incredible pixel density of 204 PPI (pixels per inch), which guarantees stunning detail clarity.

It also boasts a wide 99% DCI-P3 color gamut with true 10-bit depth, a 330-nit peak brightness, it’s factory-calibrated at Delta E ≤ 2, and supports HDR (HDR10, HLG and Dolby Vision).

In comparison to the ASUS PQ22UC, the PU15-PRE is based on a smaller 15.6″ screen, which results in an even higher pixel density of 282 PPI! So, the screen is smaller, but the details are sharper. It also has a higher 400-nit peak brightness.

There’s the 13.3″ MQ13AH and the 15.6″ MQ16AH. On such small screens, even 1080p resolution results in a high pixel density of 166 PPI and 141 PPI, respectively.

15.6 4k lcd panel hdr 10bit made in china

EIZO"s  HDR reference monitor, ColorEdge PROMINENCE CG3145, is the first monitor to overcome the severe drawbacks of other HDR technologies that are available in the market today so it can be used reliably for post production work.

Auto Brightness Limiter (ABL) is equipped in other HDR OLED monitors and limits the monitor"s ability to display lighter scenes with tones over a specific range in order to prolong the device"s lifetime. This causes those light areas to appear dimmer and the color duller as a result.

EIZO"s ColorEdge PROMINENCE CG3145 achieves a true HDR visual experience without ABL or the "halo" effect to ensure you always see accurate colors and brightness in every pixel.

ColorEdge PROMINENCE CG3145 achieves the 1000 cd/m2 high brightness level needed for HDR content display. It also offers a typical contrast ratio of 1,000,000:1 for displaying true blacks.

ColorEdge PROMINENCE CG3145 displays the DCI-4K standard (4096 x 2160) which is more than four times that of full HD (1920 x 1080). It"s ideal for creating, editing, and referencing with 2D and 3D CGI, VFX, compositing, and color grading.

LCD monitors commonly exhibit fluctuations in brightness and chromaticity across the screen, affecting color accuracy. To counter this, ColorEdge monitors are equipped with EIZO"s patented digital uniformity equalizer (DUE) technology which corrects deviations in every tone across the screen to ensure stable display.

An aspect marker designates the areas of the screen size that will be shown on a display device when you input DCI 4K (4096 x 2160) or DCI 2K (2048 x 1080). This allows you to confirm how the screen size and composition of the scene will appear in other viewing environments.

Enlarge areas of the screen to confirm small details and check focus accuracy in images using the 4K zoom function. It is quickly and easily accessible using the monitor"s front buttons.

The ColorEdge PROMINENCE CG3145 HDR reference monitor has been tested for compatibility with the AJA Hi5-4K-Plus SDI to HDMI converter so you can reliably equip the monitor for SDI connectivity. The CB-01 SDI converter bracket is designed for attaching the AJA converter directly to the back of the monitor, providing simple SDI connection and keeping cabling controlled and out of sight. Furthermore, the ColorEdge PROMINENCE CG3145* powers the Hi5-4K-Plus, eliminating the need for the power adapter that comes with the converter.

In addition to the ColorEdge PROMINENCE CG3145 HDR reference monitor, EIZO offers optional HLG and PQ curves for many of its current CG Series monitors. The optimized gamma curves render images to appear more true to how the human eye perceives the real world compared to SDR. These products will support the HDR workflow from shooting to color grading.

15.6 4k lcd panel hdr 10bit made in china

The ColorEdge CS2740 is the first CS series monitor to implement 4K UHD resolution (3840 x 2160), which is four times the size of Full HD. The remarkable detail ensures that high resolution photos and other content are displayed crisply. The 27-inch screen provides ample space for easily displaying Full HD content in full with enough space to show toolbars, palettes, and other windows or applications simultaneously. This makes the monitor versatile for photos, video editing, design, and other types of creative work up to 4K.

A conventional monitor displays in Full HD with just 96 ppi. The ColorEdge CS2740 boasts a pixel density nearly twice that at an incredible 164 ppi for 4K image display that has never looked smoother. Alphanumeric characters and contours are distinguished with excellent sharpness so you can check even the finest details without needing to zoom in.

LCD monitors commonly exhibit fluctuations in brightness and chromaticity across the screen, affecting color accuracy. To counter this, ColorEdge monitors are equipped with EIZO"s patented digital uniformity equalizer (DUE) technology which corrects deviations in every tone across the screen to ensure stable display.

The monitor is equipped with an IPS non-glare panel for high visibility. It also uses dimming technology to minimize flicker and help prevent eye fatigue for a more comfortable working environment.

The 178° wide viewing angles afforded by the IPS panel technology allow two or more people to view the screen at once with little change in color or contrast.

ColorEdge monitors are backed by a manufacturer"s 5-year warranty that covers all components including the LCD panel*. EIZO manufactures its products at its own factories to allow close control over production quality and ensure each monitor is built to last.

15.6 4k lcd panel hdr 10bit made in china

If you like saturated color and bright images, the 15.6" FHD QLED portable monitor with DCI-P3 100% would be perfect. If you"re using the monitor just for some text working, the sRGB 100% is just fine.

15.6 4k lcd panel hdr 10bit made in china

High-dynamic-range television (HDR or HDR-TV) is a technology that improves the quality of display signals. It is contrasted with the retroactively-named standard dynamic range (SDR). HDR changes the way the luminance and colors of videos and images are represented in the signal, and allows brighter and more detailed highlight representation, darker and more-detailed shadows, and a wider array of more intense colors.

HDR allows compatible displays to receive a higher quality image source. It does not improve a display"s intrinsic properties (brightness, contrast, and color capabilities). Not all HDR displays have the same capabilities, and HDR content will look different depending on the display used.

HDR-TV was first used in 2014 to enhance videos,HDR imaging, an end-to-end process of increasing the dynamic range of images and videos from their capture and creation, to their storage, distribution and display. HDR-TV also improves color gamut, as Rec. 2100 and all common HDR formats require HDR to be delivered with wide color gamuts (WCG).

Before HDR, improvements in display fidelity were typically achieved by increasing the pixel quantity, density (resolution) and the display"s frame rate. By contrast, HDR improves the perceived fidelity of the existing individual pixels.cathode ray tubes (CRT), despite the huge advances in screen and display technologies since CRT"s obsolescence.

SDR formats are able to represent a maximum luminance level of around 100 nits. For HDR, this number increases to around 1,000–10,000 nits.Rec. 709/sRGB gamut, while common HDR formats use Rec. 2100, which is a wide color gamut (WCG).

In practice, HDR is not always used at its limits. HDR contents are often limited to a peak brightness of 1,000 or 4,000 nits and P3-D65 colors, even if they are stored in formats capable of more.

The benefits of HDR depend on the display capabilities, which vary. No current display is able to reproduce the maximal range of brightness and colors that can be represented in HDR formats.

The color dynamism and wider range of colors frequently attributed to HDR video is actually a consequence of a WCG. This has become a point of significant confusion among consumers, whereby HDR and WCG are either confused for each other or treated as interchangeable. While HDR displays typically have WCGs and displays with WCGs are usually capable of HDR, one does not imply the other; there are SDR displays with WCGs. Some HDR standards specify WCG as a prerequisite of compliance. Regardless, when a WCG is available on an HDR display, the image as a whole can be more colorful due to the wider range of colors.

More subjective, practical benefits of HDR video include more realistic luminance variation between scenes (such as sunlit, indoor, and night scenes), better surface material identification, and better in-depth perception, even with 2D imagery.

When a display’s capabilities are insufficient to reproduce all the brightness, contrast and colors that are represented in the HDR content, the image needs to be adjusted to fit the display’s capabilities. Some HDR formats (such as Dolby Vision and HDR10+) allow the content creator to choose how the adjustment will be done.hybrid log–gamma (HLG)) do not offer this possibility, so the content creator"s intents are not ensured to be preserved on lower capable displays.

HLG format is an HDR format that can be used for video and still images.HLG transfer function, Rec. 2020 color primaries, and a bit depth of 10 bits.UHDTV, but not with older SDR displays that do not implement the Rec. 2020 color standards.

PQ10, sometimes referred to as the PQ format, is an HDR format that can be used for video and still images.perceptual quantizer (PQ) transfer function, Rec. 2020 color primaries and a bit depth of 10-bits.

SL-HDR1 (Single-Layer HDR system Part 1) is an HDR standard that was jointly developed by STMicroelectronics, Philips International B.V., and Technicolor R&D France.HEVC or AVC using a supplemental enhancement information (SEI) message.

12-bit is achieved via reconstruction by combining a 10-bit base layer with a 10-bit enhancement layer. Current profiles only allow a 1920x1080 enhancement layer for 4K video.

TV sets with enhanced dynamic range and upscaling of existing SDR/LDR video/broadcast content with reverse tone mapping have been anticipated since early 2000s.Samsung"s HDR+ (in LCD TV sets)

As of 2018, high-end consumer-grade HDR displays can achieve 1,000 cd/m2 of luminance, at least for a short duration or over a small portion of the screen, compared to 250-300 cd/m2 for a typical SDR display.

Video interfaces that support at least one HDR Format include HDMI 2.0a, which was released in April 2015 and DisplayPort 1.4, which was released in March 2016.HDMI 2.1 was officially announced on 4 January 2017, and added support for Dynamic HDR, which is dynamic metadata that supports changes scene-by-scene or frame-by-frame.

As of 2020, no display is capable of rendering the full range of brightness and color of HDR formats.HDR display if it can accept HDR content and map them to its display characteristics,

Displays that uses global dimming, such as most edge-lit LED displays, cannot display the advanced contrast of HDR content. Some displays implement local dimming technologies, such as OLED and full-array LED-backlighting, to more properly display advanced contrast.

The DisplayHDR standard from VESA is an attempt to make the differences in HDR specifications easier to understand for consumers, with standards mainly used in computer monitors and laptops. VESA defines a set of HDR levels; all of them must support HDR10, but not all are required to support 10-bit displays.

HDR is mainly achieved by the use of PQ or HLG transfer function.color primaries.banding across the extended brightness range. In some cases, additional metadata are used to handle the variety in displays brightness, contrast and colors. HDR video is defined in Rec. 2100.

Rec. 2100 is a technical recommendation by ITU-R for production and distribution of HDR content using 1080p or UHD resolution, 10-bit or 12-bit color, HLG or PQ transfer functions, full or limited range, the Rec. 2020 wide color gamut and ICTCP as color space.

PQ, or SMPTE ST 2084,transfer function developed for HDR that is able to represent luminance level up to 10,000 cd/m2.HDR10HDR10+backward compatible with SDR.banding.

HDR is commonly associated to a WCG (a system chromaticity wider than BT.709). Rec. 2100 (HDR-TV) uses the same system chromaticity that is used in Rec. 2020 (UHDTV).

Because of the increased dynamic range, HDR contents need to use more bit depth than SDR to avoid banding. While SDR uses a bit depth of 8 or 10 bits,

The metadata do not describe how the HDR content should be adapted to an HDR consumer displays that have lower color volume (i.e. peak brightness, contrast and color gamut) than the content.

Dynamic metadata of Dolby Vision, HDR10+ and SMPTE ST 2094 describe what color volume transform should be applied to contents that are shown on displays that have different color volume from the mastering display. It is optimized for each scene and each display. It allows for the creative intents to be preserved even on consumers displays that have limited color volume.

ETSI GS CCM 001 describes a Compound Content Management functionality for a dual-layer HDR system, including MMR (multivariate multiple regression) and NLQ (non linear quantisation).

UHD Phase A is a set of guidelines from the Ultra HD Forum for the distribution of SDR and HDR content using Full HD 1080p and 4K UHD resolutions. It requires a color depth of 10 bits per sample, a color gamut of Rec. 709 or Rec. 2020, a frame rate of up to 60 fps, a display resolution of 1080p or 2160p and either standard dynamic range (SDR) or high dynamic range that uses HLG or PQ transfer functions.dynamic range of at least 13 stops (213=8192:1) and WCG as a color gamut that is wider than Rec. 709.

Other image formats, such as JPEG, JPEG 2000, PNG, WebP, do not support HDR by default. They could support it by the use of the ICC profile,W3C is working to add HDR support to PNG.

Panasonic: Panasonic"s S-series cameras (including Lumix S1, S1R, S1H and S5) can capture photos in HDR using the HLG transfer function and output them in a HSP file format.

Canon: EOS-1D X Mark III and EOS R5 are able to capture still images in the Rec.2100 color space by using the PQ transfer function, the HEIC format (HEVC codec in HEIF file format), the Rec. 2020 color primaries, a bit depth of 10 bit and a 4:2:2 YCbCr subsampling.JPEG (sRGB color space) and then viewed on any standard display.Digital Photo Professional software is able to show the captured HDR pictures in HDR on HDR displays or in SDR on SDR displays.

Sony: Sony α7S III and α1 cameras can capture HDR photos in the Rec.2100 color space with the HLG transfer function, the HEIF format, Rec. 2020 color primaries, a bit depth of 10 bit and a 4:2:2 or 4:2:0 subsampling.

On 8 April 2015, The HDMI Forum released version 2.0a of the HDMI Specification to enable transmission of HDR. The specification references CEA-861.3, which in turn references SMPTE ST 2084 (the standard of PQ).

On 6 July 2016, the International Telecommunication Union (ITU) announced Rec. 2100, which defines the image parameters for HDR-TV and use two HDR transfer functions—HLG and PQ.

On 2 January 2017, LG Electronics USA announced that all of LG"s SUPER UHD TV models support a variety of HDR technologies, including Dolby Vision, HDR10, and HLG (Hybrid Log Gamma), and are ready to support Advanced HDR by Technicolor.

On 12 September 2017, Apple announced the Apple TV 4K with support for HDR10 and Dolby Vision, and that the iTunes Store would sell and rent 4K HDR content.

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