15.6 4k lcd panel hdr free sample

Whether completing work documentation, various work-related tasks, researching topics, streaming, or gaming, I likely spend more than 14 hours a day in front of a computer/tablet. With a growing need to multitask, one of the most considerable productivity upgrades was a second monitor. The dual monitors allowed me to open more panels and decreased the need to move back-and-forth between frames. Thus, it was an easy decision to upgrade my home setup by adding a portable monitor to my home computer.

The USB-C Portable Monitor arrived in a 15 3/4 inches long by 10 9/16 inches wide by 2 11/16 inches thick clean white retail box. The cover displayed an attractive silvery-metallic “Portable Monitor,” while the top/front panels provide the same information in bold black font. The left side panel was left unadorned, while the right-side panel provided a product SKU barcode. The bottom panel provided the Portable Monitor name along the top left of the panel and contact information along the bottom of the panel. I appreciated the clean white background, the shimmery metallic font, and liked the contrasting black-on-white theme.

I lifted the top panel of the box, removed the thin white foam padding, the 13 3/4 inches wide by 7 3/4 inches tall (15 3/4 inches diagonal) screen protector, then the 2 pounds 6.7 oz portable monitor from the box. With the main product removed from the packaging, I lifted the 3/4 inches thick foam spacer and found a secondary foam layer with three cutouts. Along the top left of the panel, I found a 2 1/2 inches wide by 2 1/4 inches tall cutout, which contained the black-colored 1 7/8 inches tall by 1 5/8 inches wide by 1 inch thick Type A Wall adaptor with USB-A output. Just beneath the cutout, I found a second cutout, which measured 5 5/8 inches wide by 4 inches tall. The medium-sized cutout contained a black-colored, flat-style 39 3/4 inches long USB-A to USB-C power cable, and a matte-black 47 1/2 inches long rounded-plastic USB-C to USB-C cable. The final cutout was the largest of the three and measured 5 7/8 inches wide by 6 1/2 inches tall. The cutout contained the product user manual, 3-year warranty card, an upgraded accessories panel (monitor stand, portable battery, dongle adapter, streaming stick), two packets of screen protector installation kits (2 15/16 inches wide by 1 15/16 inches tall cardboard presser/scraper, a dust absorber, three guide stickers, and a 3 7/8 inches square microfiber cloth), and a 48-inches long micro-HDMI to HDMI cable.

The 19-page instruction manual proved to be quite valuable. The first two panels provided similar information to the included accessory panel and added a protective sleeve to the possible upgrades. The third panel provided a list of the table of contents (About the Monitor, Using the Monitor, Troubleshooting, and Warranty and Support). The first segment, “About Your Monitor” (pages 1-3), provided a list of packaging contents (as listed above), then provided a helpful paragraph about each of the items. The second page provided a detailed product specifications panel (15.6inch screen size, IPS screen type, 1920×1080 resolution, 16:9 Aspect Ratio, 100% sRGB, 16.78 Million color depth, 9300K temperature, 300 cd/m2 brightness, 1000:1 contrast ratio, 178 degrees horizontal and vertical viewing angle, 60 Hz refresh rate, 1.6 pounds, 14.8 x 8.8 x 0.2-inch dimensions, HDR support, Free Sync Support, 6W power consumption, Mini HDMI/3.5mm Audio Jack/USB-C port x 2 connectivity, 1W x 2 built-in speakers). The third panel provided a left and right side view of the monitor and the corresponding ports (3.5mm Audio Jack/Menu/Power/exit buttons on the right and mini HDMI, plus two USB-C output ports on the left). Similar to the previous panels, the instruction manual did a great job at detailing the features in prose format.

The next panel provided utility information for the portable monitor and information about the ports (Mini-HDMI, USB-C (supports PD2.0 5-20V), USB-A (wall adapter). The subsequent three panels labeled “Connecting your Monitor” provided various picture/prose connection options. For a Laptop/PC with Type-C ports, use the included USB-C to USB-C cable and power adapter. For a Laptop/PC with HDMI ports, use the HDMI cable for A/V and use either the USB-A to USB-C between computer/monitor, or use wall power if needed. If the computer has a miniDP, you may need to purchase an adaptor. You can connect the device to modern gaming systems via HDMI and wall power, or you can connect the current generation portable gaming system via USB-C cable and wall power. You can connect the monitor to USB-C capable phones similar to the laptop example above, or you can purchase a separate adapter/dongle for phones that use proprietary charging ports.

The user manual instructions proved to be quite detailed regarding the on-screen display (OSD). The panel provided a menu layout and reviewed the brightness/contrast, color settings, audio settings, other settings, and input source. You can use the menu/+/- button on the right side of the monitor to enter the OSD menu, use the +/- toggle to move up/down within the list, and then press the button to activate your selection. You can adjust each of the parameters, select between 4 image modes (Standard/Game/Movie(MY FAVORITE)/photo), adjust the screen tint ( 9300k, 6500k, sRGB, User), Hue, saturation, low blue light, and the color gamut (sRGB, Adobe RGB, DPI-P3, Native color). The low blue light mode reduces the ambient blue light, which breaks down natural melatonin, the sleep hormone. By reducing blue light, the monitor becomes less stimulating and may improve sleep. If you navigate to “Audio Settings,” you can mute on/off, or increase/decrease the volume. Under “Other Settings,” you can adjust the aspect ratio to full screen or 16:9, turn freeSync on/off, adjust the language,, adjust HDR to auto/off/2084, or reset to factory default. Through this panel, you can also adjust between the input sources Type-C or HDMI. The last few panels provided a detailed overview of the duplicate/extend/second screen options and provided a few troubleshooting steps.

The best 4K monitors are now almost essential tools for visual design work. In fact, for those working with video, 4K is almost becoming a minimum now that 8K video is emerging. 4K, also known as Ultra HD (UHD), refers to a resolution of 3,840 x 2,160 pixels. That"s four times as many pixels as full HD (FHD), and that increased pixel density makes for a much cleaner, sharper image with more detail and texture on any screen from 27 inches and above.

The good news is that the best 4K monitors are a lot more affordable than they were a few years ago. Because UHD has now become more standard, both for media consumption as well as professional use, there are a lot more options on the market today. The flip side of this is that it"s now perhaps harder than ever to work out which is the best 4K monitor for your needs.

To help with that, we"ve made our own pick of the best 4K monitors based on our own reviews, recommendations from working creatives and a full comparison of their specs. We"ve weighed up the pros and cons of each screen and evaluated them for build and ergonomics image quality, features, colour support and accuracy, brightness and connectivity (learn more about how we test and review at Creative Bloq).

We"ve also considered value for money in order to recommend options for different needs and budgets. The best 4K monitors in terms of image quality are still very expensive – demanding professionals with a big enough budget will want to go for the Asus ProArt PA32UC-K or Eizo ColorEdge CG319X, but we haven"t placed these at the very top of our list because their price makes them simply unaffordable for many people. When factoring in value, cheaper 4K monitors like the Dell S3221QS and Samsung U28E590D end up ranking higher since we think they meet most people"s needs and an accessible price.

If you"re looking for the best 4K monitor specifically for video work, see our pick of the best monitors for video editing. And while some of the screens below can support daisy chaining for a dual monitor setup, you might also want to consider one of the best ultrawide monitors if you want more space to work with.

Pro features for under a grand put this at the top of our list of the best 4K monitors. Following in a long tradition of fine displays from Dell, the UltraSharp U3219Q offers full sRGB covering, 95 per cent DCI-P3 and exceptional colour uniformity, making it ideal for all types of creative, including those working in photo and video.

Dell takes second place on our pick of the best 4K monitors too, but this time with a much more affordable display. So OK, perhaps it"s not exactly cheap, but it"s a lot more affordable than most good 4K monitors. It looks stunning too. Dell monitors aren"t known exactly known for their sleek looks, but the curved S3221QS is a lot more elegant than its name, standing out from all those black and grey business monitors with its white back and base.

Professional 4K monitors can be massively expensive (just see the stunning Eizo ColorEdge CG319X and the Asus ProArt PA32UC-K below), but there are now some fantastic UHD screens that strike a great balance between specs and price. Our favourite, certainly for photography, is the BenQ SW321C PhotoVue. When we reviewed it, we found it to be the perfect (reasonably) affordable 32in 4K monitor for photo editing for performance and usability.

The Eizo ColourEdge CG319X is the connoisseur’s choice in high-quality displays. Eizo displays are a very familiar sight in professional video and photography studios – and this 31-inch 4K monitor, with a 10-bit display and 24-bit colour look-up table, is a stunner. The CG319X also boasts one feature that sets it apart from competing high-end 4K screens: 4096 x 2160 resolution rather than 3840 x 2160. This reflects the slightly taller 4K standard used in digital video production.

For a more compact 4K monitor, this 28-inch Samsung 4K display follows very closely on the heels of the Dell 4K S3221QS at number 2 on our list of the best 4K monitors above in terms of value. It lacks pro features but there"s still 100 per cent support for the sRGB colour space, a high 300cd/square metre brightness level and support for 60Hz 4K.

The MateView is firmly pitched at working creatives. Its IPS panel is capable of displaying 100 per cent of the sRGB colour gamut, and 98 per cent of the DCI-P3 video colour space. It also has a maximum brightness level of 500 nits, and a 1200:1 contrast ratio. The sleek, slim-bezel design is a nice addition too, and we found the touch-sensitive smart bar to be an ergonomic way to control the monitor. It"s available at a tempting price (although there are some stock issues in the US), and we reckon it"s a solid choice of monitor for creatives.

Compared with some of the pricey high-end colour-accurate Eizo and Asus screens above, the Philips Brilliance 328P (another really catchy name, right?) is an excellent alternative, as it’s great value for money while still offering solid visuals. It’s a 31.5-inch IPS panel with measured 99 per cent sRGB and 73 per cent AdobeRGB coverage, a thin-bezel design and a few extras such as a pop-up webcam that works when the built-in USB hub is connected.

Photographers and videographers who need high resolution may also want to consider this more compact LG option, which offers a 98% DCI-P3 colour gamut, great colour accuracy and typical brightness of 540 nits. The stand is height-and-tilt adjustable so you can find the right position for you, and the Thunderbolt 3 port supports 4K Daisy Chain so you can set this up with another monitor.

Viewsonic has a few colour accurate displays on the market, and the VP2785-4K is the most high-end model in its catalogue. It"s a 27-inch 4K IPS screen, sporting 100 per cent sRGB and quoted 99 per cent AdobeRGB coverage. It’s a bit fiddly to put together, requiring a screwdriver to attach the panel to the stand, but the overall design is extremely svelte, with a thin and light build, near edge-to-edge screen, and only a small bezel at the bottom that accommodates touch-sensitive controls.

With a 14-bit LUT, 700:1 contrast ratio and 375-nit brightness, the picture quality of the VP2785-4K won’t disappoint, although it doesn’t quite deliver the same eye-popping colours of the most high-end 4K displays money can buy.What is a 4K monitor?4K, also known as ultra-high definition or UHD, is a measure of a screen"s resolution. 4K monitors have a resolution of 3840 x 2160 pixels, which compares to a resolution of 1290 x 1080 for full high definition (FHD). This means that it"s almost four times FHD resolution. What that means in practice is that images look sharper and tighter, which is great for viewing HD video and higher quality video game graphics.Do I need a 4K monitor?There are a couple of main reasons that you might benefit from a 4K monitor. Firstly, for your own enjoyment. Even if you"ll be using your screen purely for entertainment purposes rather than for work, 4K offers a notably sharper picture, which can enhance the enjoyment of watching films, series and playing games. That said, when it comes to PC gaming, 4K UHD resolution is very demanding and many will find that the improvement in image quality isn"t worth the drop in performance.

The other reason you might want one of the best 4K monitors is for work. If you work in any visual creative area, a 4K screen can improve your experience by allowing you to see your work in more definition. If you work in video, you"ll almost certainly need at least a 4K monitor since 4K video has almost become the norm. If you"re producing 4K video for a client, then you really need to be able to view it in 4K while you work.Is a 4K monitor worth it?Today, for most professionals it"s almost certainly worth investing one of the best 4K monitors. They"re still more expensive than 1080p displays, but they have come down in price a lot as they become standard, and they"re now so much more affordable than they were that it"s no longer such a big decision.

While 4K doesn"t make a lot of sense for a small monitor, from 27-inches and up, it makes a huge difference from FHD that will be immediately apparent to anyone. Gary Heiting, an optometrist and senior editor of the website AllAboutVision, even says that the increased screen resolution can reduce the risk of eye strain, so working in 4K over long sessions can be more comfortable even if you don"t need to produce 4K video.Is my computer compatible with a 4K monitor?You might hope that buying one of the best 4K monitors will automatically improve your viewing experience, but it"s important to know that not every laptop or PC can support 4K. Most recent PCs or Macs should have no problem displaying 4K resolution, but it"s a good idea to check your screen"s recommended display resolution before you buy a new screen. We have a guide to screen resolution that may help.

To check your device, Right-click your desktop and select “Screen Resolution”. Under display settings, you"ll find a range of screen recommendations. If 3840×2160 is listed, you can be confident that your computer will indeed support a 4K monitor. If not, then you"ll need to upgrade your computer as well as your monitor if you want to enjoy 4K video rendering.

There"s also the issue of ports. You’ll need to make sure your PC has either an HDMI 2.0 port or DisplayPort 1.4 port that can support 4K since earlier versions of these ports do not. Your CPU And GPU also have an impact on your device"s ability to run 4K, because 4K is more demanding.

The biggest failing of the ViewSonic VG2756-4K is its mediocre 949:1 contrast ratio, which is okay in a budget monitor but harder to swallow in a model that usually costs around $500. Its performance in our color-accuracy tests was also mediocre. It has many of the other features we look for in a good 4K monitor, including a USB-C port, a USB hub (along with an Ethernet port), a flexible stand, and a three-year warranty. But its image quality is a step down from that of the Dell S2722QC and the HP Z27k G3.

The LG 27BK67U-B and the LG 27BL55U-B are 4K monitors with good color that cost less than $400; the 67U-B has a USB hub and USB-C, whereas the 55U-B omits those features and generally costs less. But in our tests both monitors suffered from image retention, leaving behind noticeable afterimages that other budget monitors we tested didn’t have.

We dismissed the ViewSonic VP2768-4K and the BenQ PD2700U for their lack of USB-C connectivity, which is a must-have in $400-and-up monitors these days.

We dismissed some 32-inch monitors without testing them because they were missing one or more of the features we were looking for. The ViewSonic ColorPro VP3268-4K lacked a USB-C port and didn’t cost much less than monitors that had one, and the BenQ EW3280U omitted a USB hub and had a limited stand that tilted the monitor up and down only.

Most companies have stopped making new 24-inch 4K monitors, but we did test the LG 24UD58-B against the Dell P2415Q in 2019. The LG’s screen was less accurate than the Dell’s by a wide margin. This model also had fewer ports (two HDMI ports and one DisplayPort connection), and its stand tilted the monitor up and down only.

We didn’t test the 24-inch LG UltraFine 4K Display, which Apple recommends for Macs that use Thunderbolt 3 ports. It also costs more than our other picks.

【BRILLIANT 4K 100% ADOBE DISPLAY】See it all in sharp, glorious detail on the immersive 15.6-inch 4K 100% Adobe RGB display. The P3 wide color gamut brings what you’re watching to life in 16.5 million colors. Industry-leading anti-reflective coating delivers greater comfort and readability. And True Tone technology automatically adjusts the color temperature of your display to the ambient light of your environment, for a more natural viewing experience.

4K portable monitor can provide sharp, clear, and vibrant images and videos. 4K portable touch screen monitor comes with an intelligent display and sound system along with large, high resolution, wide color gamut, and wide viewing angle.

A portable 4K gaming monitor comes with built-in speakers capable of providing an audiovisual experience in your workplace. No matter you are working at the office, at home, or during your business trip. UPERFECT will always be your perfect partner on the go.

Typical LCDs are edge-lit by a strip of white LEDs. The 2D backlighting system in Pro Display XDR is unlike any other. It uses a superbright array of 576 blue LEDs that allows for unmatched light control compared with white LEDs. Twelve controllers rapidly modulate each LED so that areas of the screen can be incredibly bright while other areas are incredibly dark. All of this produces an extraordinary contrast that’s the foundation for XDR.

With a massive amount of processing power, the timing controller (TCON) chip utilizes an algorithm specifically created to analyze and reproduce images. It controls LEDs at over 10 times the refresh rate of the LCD itself, reducing latency and blooming. It’s capable of multiple refresh rates for amazingly smooth playback. Managing both the LED array and LCD pixels, the TCON precisely directs light and color to bring your work to life with stunning accuracy.

4K UHD Monitors: Experience the vivid display and exceptional detail of LG’s state-of-the-art 4K UHD monitors. LG 4K UHD monitors are perfect for work and play, as they boast innovative features including wide viewing angles, dual-display capabilities and multi-ports that enhance work efficiency.

IPS Monitors: Boasting crystal-clear displays and true-to-life colors, LG 4K Ultra-HD IPS monitors let you see the bigger picture. Browse our selection of IPS monitors and discover a range of sizes and groundbreaking features.

IPS Monitors: Boasting crystal-clear displays and true-to-life colors, LG 4K Ultra-HD IPS monitors let you see the bigger picture. Browse our selection of IPS monitors available in a range of sizes and ground-breaking features.

The Atomos Ninja V is our top choice for external camera screens. You can record 4K video at 60 fps with internal playback. And it has all the features and ports you need for high-quality photography and video recording.

The maximum screen resolution is only 1080p. But it can still record 4K video at 60 fps and display anamorphic lens footage with 2x, 1.5x, 1.33x, or Panasonic’s 4:3 aspect ratio.

When used with the Blackmagic Design Pocket Camera 4K or 6K, the Bluetooth connection lets you remotely control settings. These settings include zoom, shutter speed, codec, focus, and screen resolution.

It also fits onto a DSLR hot shoe, can cope with 4K video (with loop-through HDMI output), and has two customizable function keys. It offers similar bells and whistles to more expensive on-camera monitors.

The Blackmagic Design HDR monitor is at the top end of the market for on-camera monitors. Plus, it’s the only one that can capture Blackmagic’s RAW code video. (When you shoot with a model from its Pocket Cinema Camera range.)

The screen resolution is Full HD. So it’s an excellent external screen display. It’s a good option for high-quality video recording. This monitor allows you to capture 4K at 60 fps. And you can use it with pro-level DSLR and mirrorless cameras.

It shares the Ninja V’s ability to show HDR pictures a camera’s LCD might not cope with. And there are plenty of display options, such as waveforms and histograms. Everything is easy to find in the user-friendly menu system. And it even supports 1D and 3D LUTs.

The Shinobi is ideal for vlogging cameras and social media creators. It’s a lightweight and portable LCD monitor. And there’s a special mirror mode for selfies and vloggers. The good battery life is another positive. And so is the reasonable price.

The Shinobi 7-inch is an excellent device when shooting photography in Live View. You can shoot from more angles. And its brightness allows you to shoot outside in bright sunlight. It also has HDR settings for even better image viewing.

The Atomos Shogun 7 is effectively a 7-inch version of the Ninja V. It is ideal for professionals working with the best cine cameras. And it’s for photographers who want external recorders with a large, bright HDR screen.

It offers real-time recording capabilities in 4K. And you can use formats such as ProRes RAW and CinemaDNG. Also, built-in presets can cope with camera manufacturers’ log video formats.

The external screen has a Full HD resolution. And it supports 4K video recording. That’s ideal when using 4K DSLR cameras. You also get custom imports for 3D-LUT to help you preview the shooting image.

Other useful features include a histogram, waveform, and vectorscope. There are color temperature controls. And it supports HDR monitoring for better detail inspection.

The low-brightness level does let you down when shooting outside. But the Full HD resolution is sharp and vivid. The T7 can also cope with higher video resolutions. So you can pair it with your 4K camera.

The bright, high-resolution screen is ideal for outdoor shooting. And its features include framing guides and 3D LUT overlays. The only problem is that it doesn’t support 4K recording.

Resolution:This is essential. And we mean the camera monitor’s screen resolution and the footage’s resolution. Most monitors have a 1920 x 1080 (16:9) screen. But that doesn’t mean they can’t display or record 4K Ultra HD (UHD) video (a resolution of 4096 x 2160).

Two features that might be very important are touchscreen control and recording directly to the monitor. (The Atomos Ninja V, Blackmagic Design HDR, and the Atomos Shogun 7 can record.)

The Best External Camera Screen is the Atomos Ninja V 4K monitor. It provides a 5-inch, 1000-nit HDR display. And it gives you 10-bit color and a Full HD resolution. It offers great value. And all considered, it’s the best camera monitor right now.

The Atlona AT-HDR-H2H-88MA is an 8×8 HDMI matrix switcher for high dynamic range (HDR) formats. Part of the comprehensive family of Atlona 4K HDR integration products, it is HDCP 2.2 compliant and supports 4K/UHD video @ 60 Hz with 4:4:4 chroma sampling, as well as HDMI data rates up to 18 Gbps. The HDR-H2H-88MA is ideal for residential applications with the latest as well as emerging 4K/UHD and HDR sources and displays. It includes EDID and HDCP management features, and can send CEC display control* independently to each output. An unbalanced analog audio output is paired with each HDMI input for sending de-embedded HDMI audio to a whole-house audio system. The HDR-H2H-88MA can be controlled via Ethernet, RS-232, and IR. A handheld IR remote control is included.

(Note: The HDR-H2H-88MA de-embeds HDMI two-channel PCM audio. For extracting and downmixing Dolby® and DTS® audio, Atlona recommends the AT-HDR-M2C audio converter.)

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.

Rachel Cericola (27 August 2015). "What Makes a TV HDR-Compatible? The CEA Sets Guidelines". Big Picture Big Sound. Archived from the original on 13 September 2015. Retrieved 21 September 2015.

Michael Bizzaco; Ryan Waniata; Simon Cohen (19 December 2020). "HDR TV: What it is and why your next TV should have it". Archived from the original on 21 December 2020. Retrieved 2 January 2021.

Consumer Technology Association (27 August 2015). "CEA Defines "HDR Compatible" Displays". Archived from the original on 11 June 2019. Retrieved 12 February 2021.

John Laposky (20 April 2017). "Samsung, Amazon Video Team To Deliver Updated Open Standard HDR10+". Twice. Archived from the original on 23 April 2017. Retrieved 29 April 2017.

Steven Cohen (27 July 2016). "Samsung Releases HDR+ Firmware Update for 2016 SUHD TV Lineup". High-Def Digest. Archived from the original on 2 August 2016. Retrieved 7 August 2016.

Ramus Larsen (12 December 2016). "HDMI 2.0b standard gets support for HLG HDR". flatpanelshd. Archived from the original on 8 January 2017. Retrieved 25 January 2017.

Coberly, Cohen (5 September 2019). "VESA"s DisplayHDR specification now covers ultra-bright 1,400-nit monitors - Meet DisplayHDR 1400". techspot.com. Archived from the original on 12 January 2020. Retrieved 11 January 2020.

Chris Tribbey (10 July 2015). "HDR Special Report: SMPTE Standards Director: No HDR Format War, Yet". MESA. Archived from the original on 13 September 2015. Retrieved 21 September 2015.

Bryant Frazer (9 June 2015). "Colorist Stephen Nakamura on Grading Tomorrowland in HDR". studiodaily. Archived from the original on 13 September 2015. Retrieved 21 September 2015.

Kris Wouk (24 June 2015). "Amazon brings Dolby Vision TVs into the HDR fold with short list of titles". Digital Trends. Archived from the original on 2 August 2016. Retrieved 29 July 2016.

Rasmus Larsen (9 April 2016). "Netflix is now streaming in HDR / Dolby Vision". Digital Trends. Archived from the original on 13 July 2016. Retrieved 26 July 2016.

Ramus Larsen (7 September 2016). "Android TV 7.0 supports Dolby Vision, HDR10 and HLG". flatpanelshd. Archived from the original on 24 September 2016. Retrieved 23 September 2016.

Steven Robertson (7 November 2016). "True colors: adding support for HDR videos on YouTube". Archived from the original on 27 December 2016. Retrieved 11 January 2017.

"DVB SB Approves UHD HDR Specification". Digital Video Broadcasting. 17 November 2016. Archived from the original on 13 January 2017. Retrieved 7 January 2017.

Color gamut is a measure of how many colors can be represented on a display. The higher the color gamut, the more colors represented, making color more rich and saturated. While no display can come close to what is seen with the human eye, a 100% color gamut panel is the best available in PC display. When a panel is 100% color gamut, it’s typically described as Adobe RGB. The XPS 15 4K Ultra HD display is factory color measured and color coordinates are saved onto the panel so you can reproduce color accurately. They are vivid, show more shades, higher saturation and more colorfulness. The user sees a more pleasant, colorful and accurate image. The XPS 15 and 17 are the only laptops that are true 100% minimum Adobe RGB, meaning the panel can represent all color in the Adobe color space without compromise. Professionals are able to get a full color representation of their content in the field - they can take a photo with an RGB setting on their camera, use Adobe software, and see that image on their display with exactly the same colors represented.

A laptop with high brightness is easy to see when using outdoors & prefect for watching movies or web surfing. A 500-nit panel, found on XPS laptops, is brighter than a typical laptop panel (200-nit).

Navigation made easy. A panel with multi-touch allows users to interact with their multimedia by directly touching the computer LCD, minimizing the need for a keyboard, touch pad or mouse. A touch screen is a more natural way to interact with your PC. You have the freedom to just touch the screen and manipulate directly. Plus, it is a more collaborative experience — no fighting over the mouse or who has control of the screen. And two people can interact with one application at the same time, with up to ten-finger-touch functionality.

Take full advantage of HDR content’s superior dynamic range with Dolby Vision™, which can deliver colors never before seen on SDR PC displays. Dolby Vision content can deliver highlights that are up to 40 times brighter, and blacks that are up to 10 times darker. Plus, the stunning VESA certified DisplayHDR™ 400 display on the optional 4K+ panel enables over 16 million colors that have more depth and dimension than ever before.

On our touch displays, edge-to-edge Corning® Gorilla® Glass is bonded to the aluminum for a very rigid panel design. The latest Corning® Gorilla® Glass 6 is strong, as well as impact and scratch resistance.

At Micro Center, we proudly offer the best monitors for gamers, creatives, and more to help boost connectivity and the viewing experience with your Apple or PC computer. Discover your new high def LED, IPS, or LCD monitor here.

Resolution is important to choosing a monitor for gaming or enjoying streaming media with the best picture. Go for a 4K ultra high definition (4K UHD) or 8K monitor if you want the best resolution possible. With more than 8 million pixels, a UHD monitor will undoubtedly enhance the visuals of any gaming or video streaming experience. Ultrawide monitors are also great for creating cinematic viewing angles and making you feel like you’re in the theatre.