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If you want sharp image quality, 4Kresolution is where you want to be in 2022. Sure, there are 8K screens and even more modest 6K ones(opens in new tab)making the rounds these days. And lower resolutions deliver higher frame rates on even the best graphics cards. However, 3840 x 2160 sits at the upper echelon of premium viewing experiences for what our eyes can perceive. So for most people, whether you"re gaming, watching a movie, surfing the web, watching your coworkers call you on the best webcams or getting work done, 4K is an ideal fit. And with one of the best budget 4K monitors, you can get there without breaking the bank.

4K was a luxury that wasn"t achievable for a reasonably priced PC monitor for years. But as these high-resolution screens have become more commonplace and the bleeding edge has turned to high refresh rates and full-array local dimming, a relatively large assortment of budget 4K monitors will allow you to take the plunge without shelling out several hundred dollars.

What size do you need?For a budget monitor, 32 inches is a nice sweet spot, providing ample screen space while still fitting atop a desk. If you don"t need to share the screen, consider 28-inch and 27-inch screens. They"re common in this price range and generally less expensive.Decide the monitor’s main purpose. For gaming, higher refresh rates and Adaptive-Sync (AMD FreeSyncor Nvidia G-Sync) are priorities, alongside a beefy graphics card. You should have a minimum of a GTX 1070 Ti or RX Vega 64 for medium settings at 4K or, for high or better settings, an RTX-series or Radeon VII. For general productivity or entertainment, look for high contrast for high image quality. Creatives should strive for accuracy. For more, see How to Buy a PC Monitor, plus our Best Gaming Monitorslist.Errors under 3Delta E(dE) are generally invisible to the naked eye. A monitor with a 5dE color error, for example, probably has colors that look visibly off. Accuracy is a bigger priority for creative work.Do you need HDR? A 4K monitor with the right HDRimplementation makes 4K/HDR content look much better than it would on a regular, SDR monitor. While many 4K monitors support HDR, few budget ones deliver it with noticeable impact. If you want a monitor that makes the HDR upgrade worth it, consider increasing your budget or opting for a lower resolution to save money. Read How to Choose the Best HDR Monitor for more.Consider ports and other features.Do you need HDMI 2.1 and/or the latest DisplayPort (1.4)? How important are USB Type-A ports to you? Do you want USB-C for charging or a single-cable setup? Speakers and the stand’s ability to tilt, swivel or rise are also considerations.

The Samsung UR59C is the best budget 4K monitor, offering a 32-inch VA panel with accuracy and curves. Image quality is superb, with bold, accurate colors and clear text after calibration. When we tested in sRGBmode, we recorded a color error of 4.3dE with visible errors, but our calibration (see our recommended settings on page 1 of the review) got it down to 0.9dE. So your web and games should look as intended. The UR59C also offers fantastic contrast, as expected from a VApanel, hitting an impressive 2,590.5:1 after calibration.

You’ll have to pay a hefty price for a monitor that can push 8.3 million pixels at a 144 Hz refresh rate. The best budget 4K gaming monitor, the Asus TUF Gaming VG289Q, is a slower 60 Hz but fights screen tears with FreeSync. Yes, input lag is significantly larger than what you’ll find on a 144 Hz monitor, as is response time. But this is an excellent option if you’re working with a budget graphics card and want your games to look detailed and realistic. SDR games looked extra colorful on the VG289Q, and dynamic contrast brought subtle visual benefits, like added dimension. However, there are screens on this page with better contrast.

If the best budget 4K monitor for you is in the 32-inch range, check out the LG 32UN500-W Contrast is a top consideration for image quality, and the 32UN500-W’s VA panel didn’t disappoint in our benchmarks, hitting 2,353.9:1 out of the box. In addition, the 32UN500-W’s native color gamut is DCI-P3, and it covers that color space accurately without any visible errors.

Again, as a budget 4K monitor, the 32UN500-W isn’t winning any HDR prizes. Color lacks the expected pop, and overall the image doesn’t provide a noticeable boost over SDR.

The Dell S2721QS earns the title of best 27-inch budget 4K monitor with a bright screen, reliably accurate image, and useful add-ons. Those bonus add-ons include the ability to connect multiple PCs and view them simultaneously via picture-in-picture or picture-by-picture and an optional app that makes it easy to calibrate the screen or arrange up to 6 windows in various preset layouts. The latter is a productivity boon.

The HP U28 is one such screen and the best budget 4K monitor for creatives. Of course, none of the monitors on this page are color slouches, but the U28 stands out with its ability to accurately cover both the sRGB and P3 color spaces with just a switch in the OSD and no calibration. You also get an adjustable stand that allows height and swivel adjustments and the ability to flip into portrait mode, offering plenty of flexibility for creative work.

You also have DisplayPort and HDMI options, and even a headphone jack. But there are no speakers, and like many budget 4K screens, HDR is a bust. You’re better off watching your HDR movies in the monitor’s SDR modes, but color will still look great. On top of that, the stand is reliable, even in portrait mode, but is a little low, despite height adjustment.

Whether you"re shopping for one of the screens that made our list of best budget 4K monitors above or something else, you may find savings by checking out our best monitor deals page, along with our lists of Dell coupon codes, Lenovo coupon codes, LG coupon codes, HP coupon codes, Monoprice coupon codes and Newegg promo codes.Round up of today"s best deals

a line of extreme and ultra-narrow bezel LCD displays that provides a video wall solution for demanding requirements of 24x7 mission-critical applications and high ambient light environments

The Hisense U8H matches the excellent brightness and color performance of much pricier LCD TVs, and its Google TV smart platform is a welcome addition. But it’s available in only three screen sizes.

The Hisense U8H is the best LCD/LED TV for most people because it delivers the performance of a much pricier TV yet starts at under $1,000, for the smallest (55-inch) screen size. This TV utilizes quantum dots, a full-array backlight with mini-LEDs, and a 120 Hz refresh rate to deliver a great-looking 4K HDR image. It’s compatible with every major HDR format. And it’s equipped with two full-bandwidth HDMI 2.1 inputs to support 4K 120 Hz gaming from the newest Xbox and PlayStation consoles. Add in the intuitive, fully featured Google TV smart-TV platform, and the U8H’s price-to-performance ratio is of inarguable value.

Chief among the U8H’s many strengths is its impressive peak brightness. When sending it HDR test patterns, I measured an average brightness of 1,500 nits, with peaks just north of 1,800 nits (a measurement of luminance; see TV features, defined for more info). To put that into perspective, consider that the 65-inch version of our budget 4K TV pick (the TCL 5-Series) typically costs around half as much as the 65-inch U8H but achieves only around 30% to 40% of its brightness. On the other side of the coin, the 65-inch version of our upgrade pick (the Samsung QN90B) costs almost twice as much as the 65-inch U8H, but it achieves only nominally higher brightness. Adequate light output creates convincing highlights and image contrast and (when necessary) combats ambient light from lamps or windows. It is a necessity for any TV worth buying—especially if you hope to watch HDR movies or play HDR games—and the U8H simply outpaces most TVs in its price range (and some in the next price bracket up, too).

What does this mean in real-world terms? It means that the Hisense U8H truly excels as a modern 4K HDR TV, whether you’re watching the latest episode of Rings of Power or playing Overwatch 2. While watching HDR content side by side on the U8H and on our upgrade pick, the Samsung QN90B, I was truly surprised by how similar they looked at times, given that our upgrade pick is much more expensive. That said, though the U8H achieves impressive results where light output and color volume are concerned, it also exhibited some occasional video processing and upscaling issues (see Flaws but not dealbreakers), which videophiles and AV enthusiasts may take umbrage with. But in general, the picture quality punches well above its weight, metaphorically speaking.

The TV’s higher refresh rate also reduces motion blur in faster-moving sports and allows for smoother, more stable motion in games. Two of the four HDMI inputs support 4K gaming at 120 Hz. The U8H measured low input lag while playing in 4K resolution, and Hisense’s helpful GameZone setting in the picture menu allowed me to confirm the presence of 120 Hz playback and variable refresh rate during games.

In terms of design, the Hisense U8H is not as svelte as our upgrade pick, but it’s plenty sturdy and doesn’t look or feel cheap. Two narrow, metal feet jut out from beneath the panel and steadily hold the TV. They can be attached in two separate spots, either closer in toward the middle of the panel or out toward the edges, to account for different-size TV stands. The feet are also equipped with cable organization clasps—a nice touch for keeping your TV stand free of cable clutter. Though the TV is primarily plastic, its bezels are lined with metal strips, providing a bit more durability in the long run. I moved it around my home, and it was no worse for wear, but we’ll know more after doing some long-term testing.

The Hisense U8H has some difficulties with banding, or areas of uneven gradation, where transitions that should appear smooth instead look like “bands” of color (sometimes also called posterization). Like many current 4K HDR TVs, the U8H uses an 8-bit panel rather than a 10-bit panel, which affects the color decoding and color presentation process. This is usually relevant only with HDR video and games. When playing games on the PlayStation 5 and Xbox Series X, I saw a few instances where the content wasn’t rendered correctly and displayed ugly splotches of color on the screen. However, this almost always occurred during static screens (such as a pause menu or loading screen); I rarely spotted it during actual gameplay. Hisense has stated that it would address the problem in a future firmware update, but at the time of writing it was still present. This is a flaw that may give dedicated gamers pause, but we don’t consider it to be a dealbreaker for most people.

I also saw occasional instances of banding with TV shows and movies, though they were few and far between. The U8H isn’t the best at upscaling sub-4K content, so videos with a 1080p or lower resolution looked a little soft. You can get better overall video processing and upscaling by springing for our upgrade pick (this is one reason it’s more expensive, after all).

Although the UH8 TV has four HDMI inputs, only two of them are fully HDMI 2.1–compatible. And one of those is designated as the eARC input (intended as an audio connection for a soundbar or AV receiver connection). So if you’re pairing an external audio system with the U8H, you may have only one input remaining that can support HDMI 2.1 features like 4K 120 Hz playback, variable refresh rate, and auto game mode; this could be a dealbreaker if you own more than one current-gen gaming console. If you’re in that boat, you may want to splash out some extra dough for our upgrade pick. Additionally, folks using pre-HDMI source devices—like the five-cable composite connector with green, red, blue, and red/white audio inputs—should be aware that this TV requires an adapter to allow those devices to connect, and an adapter is not included in the box.

Finally, like most TVs that use vertical alignment (VA) LCD panels, the U8H has a limited horizontal viewing angle, which may be a bit annoying if you’re hoping to entertain a large crowd. Our upgrade pick uses a special wide-angle technology to address this.

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.

The Acer B326HK and the BenQ PD3200U are sometimes cheaper than the 32-inch monitors we considered, but when we tested them in 2017 and 2019, respectively, we were disappointed by their mediocre contrast and color accuracy. They’re also missing newer features that we consider essential in a high-end monitor, such as a USB-C port.

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.

TV repair costs between $60 and $350 with most spending $207 on average for LCD, LED, plasma, and 4K TVs; costs are higher if repairing older DLP, projection, and HD TVs. TV problems like display issues, powering-on problems, or sound issues can be fixed. Pickup and delivery fees may apply.

For example, the price of a new Samsung 40-inch LED TV is about $400, yet the cost of a replacement display panel for this model is about $380. This price is only for the replacement part and does not cover diagnostic costs, labor costs, or travel or shipping fees.

Unless you are trying to fix a TV from the ’80s or earlier, cracked TV screen repair is not feasible; the entire display panel must be replaced instead. The cost of a replacement TV display panel is more than the cost of buying a new TV, and that’s before labor and other service costs.

TV manufacturers do keep replacement TV screen panels on hand to support products under warranty in case the screen malfunctions, due to manufacturer defect.

If you still want to replace a damaged or malfunctioning TV screen, your best option is to find a used replacement panel or a broken TV of the same model on which the screen is still functional. You might find one on eBay, and you can hire a technician to change out the panel.

The cost of a used replacement TV panel ranges from $50 to $350 or more, excluding shipping, depending on the brand and size. Note that the chances of finding exactly the part you need in excellent condition are slim, and the cost excludes the cost of installation by a repair shop.

Whether your TV is LCD, LED, plasma screen, or 4K (Ultra HD), the cost to fix common problems ranges from $60 to $350, depending on the repair type and the brand of TV being repaired.

If an older model LCD TV or projection TV powers on and has sound but no picture, this may be due to lamp burnout, which is both common and expected. In this case, replacing the bulb will fix the problem. An experienced technician should be able to replace the bulb quickly and easily.

Flat screen replacement glass is not available. The only option for flat-screen TV glass repair is to try optical glass glue, which costs $1.70 for a 5-ml. tube. This may be an option for TV glass repair if the crack is only a few inches or less. TV panels are built as one unit at the factory, with the glass adhered to the display panel.

LCD flat-panel repair is not considered cost-effective. If the glass is cracked or the display is physically damaged, it is cheaper to replace the entire TV than to repair or replace the display panel.

The cost of flat-screen TV repair ranges from $42 to $359. You cannot fix a broken screen, but the price of a new flat-panel TV starts from around $249 for a 1080-mp (non-4K) LED TV from LG to as much as $14,999 for an 85-inch 8K LED TV from Samsung. A TV referred to as a “flat TV” or “flat-screen” TV might be any of the following:

LCD TV repair typically costs $60 to $85 for diagnostics testing, and $200 to $300 to perform repairs. LCD TVs use backlighting, which may fail. Newer LCD TVs use LED strips for backlighting. Older ones might use CCFL. If CCFL backlighting fails, a technician can replace it with LED backlighting.

An LED TV is just an LCD TV that uses LED backlighting, which all newer models do (older models use CCFL backlighting). The cost to replace one LED backlighting strip ranges from $100 to $122, including parts and labor.

The cost to replace the motherboard, inverter, or LED"s in a 4K TV ranges from $100 to $275 or more depending on the brand and model. The cost for screen repair for a 4K TV is irrelevant because it cannot be fixed or replaced at a cost that is lower than the cost of a new 4K TV.

Circuit breaker - Check the circuit breaker for the power outlet that the TV plugs into. You can check the breakers by opening the door to your breaker panel and looking for circuit breakers that are in the OFF position.

Inverter is bad -It is possible that the inverter, which powers the backlights, has gone bad and needs to be replaced. It’s also possible that one or more capacitors on the inverter have gone bad, in which case a technician may be able to replace capacitors more cheaply than replacing the entire inverter.

Lamp burnout -In a projection TV or older LCD TV, no picture may be caused by lamp burnout. In this case, a technician can replace the bulb quickly and easily.

In most cases, a flat-screen TV can be fixed. The exception is a physically damaged display panel or screen. Most other issues including failing speakers, backlights, or power supply. Burned out fuses and damaged input ports can also be repaired.

You cannot replace a broken flat-screen display. New TVs costs anywhere from $249 for a 1080P (non 4K) LED TV from LG to as much as $14,999 for an 85” 8K LED TV from Samsung.

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.

With approximately 8,290,000 pixels, or about four times the pixels of a Full-HD display, images are highly detailed. This dynamic, large-screen display archives true-to-life, finely nuanced images. The 4K display is an excellent choice for meeting rooms where images are often viewed up close, and creates impressive ambience in signage applications for commercial facilities. It can be expected to attract considerable attention.

Conventional display panels are preset with display modes such as Standard and Dynamic. The SQ1 Series comes with an extensive display menu to let you select the most suitable mode for the content to be displayed and the viewing environment.

The narrow bezel renders higher-impact images, further enhancing the 4K picture quality. Without being distracted by the bezel, the viewer becomes immersed in the eye-catching image.

Based on HDBaseT™ technology, DIGITAL LINK supports transmission of video, audio, and control commands through a single CAT5e or higher STP cable for distances of 150 m (492 ft) for Full HD video and 50 m (164 ft) for 4K* video.

* ET-YFB200G/YFB100G is not compatible with 4K signals. 150 m (492 ft) transmission available only with ET-YFB200G DIGITAL LINK Switcher for signals up to 1080/60p in Long Reach Mode.

By simply inserting a USB memory stick onto which content has been saved, playback automatically starts. Since it is 4K compatible, it easily provides 4K digital signage without having to use a PC or set-top box.

The SQ1 Series is equipped with the new Intel® SDM specification slot standard that supports 4K signals. Combined with the interface board, you can easily use a built-in PC and add various interfaces.

In addition to 4K multi screens, the SQ1 Series can display 2 screens, such as PinP and PbyP. This is ideal for checking details in various applications such as videoconferences, digital signage, and surveillance monitoring.

Shopping for a new TV is like wading through a never-ending pool of tech jargon, display terminology, and head-spinning acronyms. It was one thing when 4K resolution landed in the homes of consumers, with TV brands touting the new UHD viewing spec as a major marketing grab. But over the last several years, the plot has only continued to thicken when it comes to three- and four-letter acronyms with the introduction of state-of-the-art lighting and screen technology. But between OLEDs, QLEDs, mini-LEDs, and now QD-OLEDs, there’s one battle of words that rests at the core of TV vocabulary: LED versus LCD.

Despite having a different acronym, LED TV is just a specific type of LCD TV, which uses a liquid crystal display (LCD) panel to control where light is displayed on your screen. These panels are typically composed of two sheets of polarizing material with a liquid crystal solution between them. When an electric current passes through the liquid, it causes the crystals to align, so that light can (or can’t) pass through. Think of it as a shutter, either allowing light to pass through or blocking it out.

Since both LED and LCD TVs are based around LCD technology, the question remains: what is the difference? Actually, it’s about what the difference was. Older LCD TVs used cold cathode fluorescent lamps (CCFLs) to provide lighting, whereas LED LCD TVs used an array of smaller, more efficient light-emitting diodes (LEDs) to illuminate the screen.

Since the technology is better, all LCD TVs now use LED lights and are colloquially considered LED TVs. For those interested, we’ll go deeper into backlighting below, or you can move onto the Local Dimming section.

Three basic illumination forms have been used in LCD TVs: CCFL backlighting, full-array LED backlighting, and LED edge lighting. Each of these illumination technologies is different from one another in important ways. Let’s dig into each.

CCFL backlighting is an older, now-abandoned form of display technology in which a series of cold cathode lamps sit across the inside of the TV behind the LCD. The lights illuminate the crystals fairly evenly, which means all regions of the picture will have similar brightness levels. This affects some aspects of picture quality, which we discuss in more detail below. Since CCFLs are larger than LED arrays, CCFL-based LCD TVs are thicker than LED-backlit LCD TVs.

Full-array backlighting swaps the outdated CCFLs for an array of LEDs spanning the back of the screen, comprising zones of LEDs that can be lit or dimmed in a process called local dimming. TVs using full-array LED backlighting to make up a healthy chunk of the high-end LED TV market, and with good reason — with more precise and even illumination, they can create better picture quality than CCFL LCD TVs were ever able to achieve, with better energy efficiency to boot.

Another form of LCD screen illumination is LED edge lighting. As the name implies, edge-lit TVs have LEDs along the edges of a screen. There are a few different configurations, including LEDs along just the bottom, LEDs on the top and bottom, LEDs left and right, and LEDs along all four edges. These different configurations result in picture quality differences, but the overall brightness capabilities still exceed what CCFL LCD TVs could achieve. While there are some drawbacks to edge lighting compared to full-array or direct backlight displays, the upshot is edge lighting that allows manufacturers to make thinner TVs that cost less to manufacture.

Local dimming is a feature of LED LCD TVs wherein the LED light source behind the LCD is dimmed and illuminated to match what the picture demands. LCDs can’t completely prevent light from passing through, even during dark scenes, so dimming the light source itself aids in creating deeper blacks and more impressive contrast in the picture. This is accomplished by selectively dimming the LEDs when that particular part of the picture — or region — is intended to be dark.

Local dimming helps LED/LCD TVs more closely match the quality of modern OLED displays, which feature better contrast levels by their nature — something CCFL LCD TVs couldn’t do. The quality of local dimming varies depending on which type of backlighting your LCD uses, how many individual zones of backlighting are employed, and the quality of the processing. Here’s an overview of how effective local dimming is on each type of LCD TV.

TVs with full-array backlighting have the most accurate local dimming and therefore tend to offer the best contrast. Since an array of LEDs spans the entire back of the LCD screen, regions can generally be dimmed with more finesse than on edge-lit TVs, and brightness tends to be uniform across the entire screen. Hisense’s impressive U7G TVs are great examples of relatively affordable models that use multiple-zone, full-array backlighting with local dimming.

Because edge lighting employs LEDs positioned on the edge or edges of the screen to project light across the back of the LCD screen, as opposed to coming from directly behind it, it can result in very subtle blocks or bands of lighter pixels within or around areas that should be dark. The local dimming of edge-lit TVs can sometimes result in some murkiness in dark areas compared with full-array LED TVs. It should also be noted that not all LED edge-lit TVs offer local dimming, which is why it is not uncommon to see glowing strips of light at the edges of a TV and less brightness toward the center of the screen.

Since CCFL backlit TVs do not use LEDs, models with this lighting style do not have dimming abilities. Instead, the LCD panel of CCFL LCDs is constantly and evenly illuminated, making a noticeable difference in picture quality compared to LED LCDs. This is especially noticeable in scenes with high contrast, as the dark portions of the picture may appear too bright or washed out. When watching in a well-lit room, it’s easier to ignore or miss the difference, but in a dark room, it will be, well, glaring.

An OLED display uses a panel of pixel-sized organic compounds that respond to electricity. Since each tiny pixel (millions of which are present in modern displays) can be turned on or off individually, OLED displays are called “emissive” displays (meaning they require no backlight). They offer incredibly deep contrast ratios and better per-pixel accuracy than any other display type on the market.

Because they don’t require a separate light source, OLED displays are also amazingly thin — often just a few millimeters. OLED panels are often found on high-end TVs in place of LED/LCD technology, but that doesn’t mean that LED/LCDs aren’t without their own premium technology.

QLED is a premium tier of LED/LCD TVs from Samsung. Unlike OLED displays, QLED is not a so-called emissive display technology (lights still illuminate QLED pixels from behind). However, QLED TVs feature an updated illumination technology over regular LED LCDs in the form of Quantum Dot material (hence the “Q” in QLED), which raises overall efficiency and brightness. This translates to better, brighter grayscale and color and enhances HDR (High Dynamic Range) abilities.

And now to make things extra confusing, part of Samsung’s 2022 TV lineup is being billed as traditional OLEDs, although a deeper dive will reveal this is actually the company’s first foray into a new panel technology altogether called QD-OLED.

The best 4K gaming monitor makes way more than games look great. It"s a big upgrade to any system that has the garphics card to power it. But games in particular make the best argument for the swap to 4K, showcasing how vivid modern games can look at such a high resolution. For those of you who want to make the leap, the 4K monitors below are the ones that are well built to not only deliver a great picture but do it with a high refresh rate too.

While you"ll want a top-end GPU to get the most from a 4K monitor, even the Nvidia GeForce RTX 3060 Ti(opens in new tab) and AMD Radeon RX 6700 XT(opens in new tab) can be surprisingly capable when it comes to 4K. Especially if you don"t feel the need to run at max settings. And as GPU supply returns to normality—something that is starting to finally become the norm—we might actually have some next-gen cards on the way, too. And those should pretty much all be 4K-capable.

In most cases, you"re going to want a VA or IPS panel, with a refresh rate above 60Hz, and some form of frame-syncing capability—either G-Sync or FreeSync. You also need to decide whether to up-size with one of the best gaming TVs(opens in new tab) instead, for deeper immersion. If you have space, that is.

Spending that little more on one of the best 4K gaming monitors is certainly worth it, especially when you consider it should see you through a decade of action-packed, next-gen gaming. It"ll be able to produce breathtaking visuals for all those years, spanning many iterations of your Theseus’ ship of a PC. Think of it as a long-term investment, basically, but one that you also get to enjoy today.

The LG UltraGear is the first 4K Nano IPS 1ms gaming monitor capable of properly showing off your next-gen GPU. This 4K 27-inch HDR monitor boasts a 144Hz refresh rate and 1ms response time—wild for a 4K monitor.

To that, you can add compatibility with both Nvidia’s G-Sync and AMD’s FreeSync adaptive refresh, a slick slim-bezel design, and LG’s Sphere Lighting 2.0 RGB visual theatrics. Oh, and the minor matter that, you know, this is a 4K IPS monitor that runs at fully 144Hz refresh.

But what of the actual real-world experience? This is an awfully pretty panel. LG’s default calibration is virtually faultless, with impeccable detail in both black and white scales. Beyond the strict metrics, it’s a seriously vibrant and punchy display in terms of image quality on the Windows desktop.

Hop in game and it’s just as impressive. We’ll never tire of the buttery smooth goodness that is 144Hz. But combined with the crazy-sharp detail that comes with the 4K pixel grid, well, it’s pretty special. The catch, of course, is that you’ll need one heck of a GPU to make the most of the 144Hz refresh while running at 4K, though that just got a little more realistic with the latest graphics cards from both Nvidia and AMD.

The most obvious shortcoming, compared to similar but even pricier screens, involves HDR implementation. The 27GN950 does support HDR, including local dimming, and comes complete with VESA’s DisplayHDR 600 certification. However, the local dimming comprises just 16 edge-lit zones. This is a much more convincing monitor taken as a really excellent SDR panel. As an HDR display, it"s disappointing.

The LG UltraGear 27GN950-B bags you a terrific panel with exquisite IPS image quality and, despite the lesser HDR capabilities, beautiful colors and contrast in your games too. G-Sync and Freesync support ensure stable pictures and smoothness in games, and the speedy refresh rate and response times back this up too.

A close cousin of the Acer Predator X27, itself once the top of this pile, the XB273K is a seriously excellent 4K monitor. It harnesses everything the X27 does, trading off very little to rehouse it in a far cheaper chassis.

4K has been a prohibitively expensive venture in PC gaming for many years now. That comes down to a simple truth: it"s a helluva lot of pixels to be moving around all at once. Pixel pushing power equals money—you need a graphics card capable of the task and a gaming monitor able to display the final result to experience 4K at its best. And neither has come cheap for the longest time.

That"s all starting to change, though, as the Gigabyte M28U proves by its superb value and excellent 4K feature set. Not only is this a great monitor for PC gamers either, as support for HDMI 2.1 makes it a great option for Xbox Series X and PlayStation 5 owners too.

Within its four slim bezels, the Gigabyte M28U contains a 28-inch IPS panel. The IPS panel tech delivers exceptional color depth and clarity, and performs well in most other regards, especially viewing angles. Most especially black and white levels, where even the slightest dip in contrast was noticeably discernable on-screen during testing. That clear delineation in black levels is awfully impressive for an IPS, too, especially one without a seriously impressive contrast spec such as this. The M28U is rated to 1,000:1, and there is also a touch of that tell-tale IPS glow around the edges on dark images, though neither is all that noticeable while gaming.

The big sell though is the 144Hz refresh rate, as you no longer have to forgo high frame rates for the full-fat 4K resolution. The key thing here is having a GPU capable of driving such high frame rates in most games, which is no simple feat. AMD"s Radeon RX 6900 XT managed just fine in my experience, but when I was testing the Asus GeForce RTX 3070 Noctua OC Edition, I found it was often struggling at 4K with high presets enabled—you really want to get all that detail on the screen, as well.

What makes the M28U an even bigger deal is that it"s actually rather affordable. It"s still quite a lot of money to throw down on a monitor alone, but considering what other 4K monitors with this sort of feature set are going for, it"s as close to a steal as you"re going to get at 4K.

The LG 27UL650 is a solid 4K gaming monitor you can often find for under $500. This IPS panel display has improved color and contrast over its predecessor and offers lower input lag for gaming too.

The only real downside is the standard 60Hz refresh rate, which means it isn"t a great option if you like your shooters to be of a competitive nature. There"s nothing wrong with 60Hz for plenty of games, but we simply demand smoother frame rates from our screens these days, and that includes 4K panels.

Overall, this monitor does boast decent color accuracy and at an affordable price. Just be mindful that there are smoother panels out there. They just demand a lot more from your bank account for the privilege.

After a rocky start with its ill-fated foray into the world of tablets, Eve has smashed it out of the park with the Spectrum ES07D03. It"s a beautifully designed gaming monitor, with a stunning LG panel, and all the features you could possibly want from a modern screen. That"s the result of a crowd-designed creation process for the Spectrum, and it certainly looks like it"s paid off.

Except for those wanting decent HDR. With a peak luminance of 750cd/m2, and a little local dimming in its backlighting array, I was hoping for a little more pizazz in my HDR scenes. Sadly, that"s still a struggle for PC gaming and its monitors. But everything else the Eve Spectrum does has blown me away. The LG Nano IPS panel is superb, with vibrant colors, and great motion, and I"m a little bit in love.

The LG nano-IPS Oxide display is the heart of the Spectrum and is the key to the stellar visual experience the monitor itself provides. There are precious few panel manufacturers on the planet, and LG is undoubtedly one of the best. This latest nano-IPS display is an 8-bit + A-FRC screen, and one that can deliver 4K resolutions at 144Hz. For the professionals out there, it"s rated with a color gamut that covers 98% DCI-P3 and 100% of the sRGB color space.

The Spectrum also rocks HDMI 2.1 support so it can deliver its full 144Hz promise across PC and next-gen console at 4K, something you previously needed a DisplayPort connection to do.

Like any 4K/144Hz screen you could mention, the price tag is potentially prohibitive. But gaming monitors are investments, and this is a screen that will outlast your current PC, and potentially your next one too. So it"s always worth spending what you can possibly afford on a new screen.

Perhaps a little obvious, but packing lots of top-end features into a display means it’ll come with a high price tag. The Asus ROG Swift PG27UQ is an incredible display but it doesn"t come cheap. That money does net you more features than any other display here and perhaps that"s enough to set it apart.

As well as the ridiculously clear, bright and detailed images that the PG27UQ’s 4K and HDR-enabled 27-inch display shows off, this monitor also incorporates Nvidia G-Sync tech, making this an absolute behemoth of a screen. Though we do wish the contrast was slightly better on this nearly perfect screen.

The HDR and Quantum Dot IPS display make this monitor a standout from the rest of the crowd. Enabling HDR gives the graphics a noticeable dynamism in any resolution, though it sees the most benefit at 4K. Shadows are generally not too dark. Brightly lit scenes are not blown out. The PG27UQ excels especially well with gritty games like Metro Exodus and Outlast 2 with the HDR turned on—and honestly, the lighting looks just as good compared to ray tracing in some instances. But depending on the in-game lighting, some finer details will be too dark to make out. Brightly colored games are where this monitor really shines.

IPS displays in general allow you to view the screen from off-angle without the color quality being affected, but throwing Quantum Dot tech in there adds more backlighting to the LEDs, which allows for that wider color gamut. Also, the 144Hz refresh rate combined with G-Sync also helps create a near-flawless gaming experience. I didn"t experience any screen tearing or micro stutter. Of course, you"ll need to overclock the monitor to get up to 144Hz (via the display"s OSD menu), but the native 120Hz isn"t so bad. It"s not like most games will even hit 120 fps on current hardware at 4K.

But first the good. This 4K VA panel rocks up with a DisplayHDR 1000 certificate, and the ability to render its 3840x2160 native resolution at speeds of up to 120Hz. Sadly, for console gamers, its HDMI version is only 2.0 and so your next-gen game boxes will be restricted to 4K/60. The Series X will hit 120Hz at 1440p, however, although the PS5 stillneglects that option.

For us PC folk, that"s no issue, as the Philips display supports DisplayPort 1.4 so we can get the full 4K res at a zippy 120Hz. Coupled with its bright, vibrant panel, that makes the screen great for smooth 4K gaming. And I"m still smitten by Philips" Ambilight technology, which rings the back of the display with RGB LEDs that can alter hues individually to match their corresponding color on the panel itself.

My only real reservations surround some of the response settings. To make the large panel responsive Philips offers different levels of SmartResponse, but the more aggressive you get on those settings the more inverse ghosting you tend to get on high contrast moving images. Playing FIFA at 4K and I could notice issues around the edges of players. But if you"re smashing through Doom Eternal, however, it"s just going to be the smooth motion and vibrant colors that stand out. That and the gibs, obvs.

Best 4K gaming monitors FAQIs a 4K gaming monitor worth it for PC gaming?The biggest thing to consider is whether you have a PC capable of making a 4K gaming monitor worth it. Upgrading to one of the best graphics cards(opens in new tab) will ensure your machine will not just be rendering a gaming slideshow with the step-up to 4K. It would help if you also aimed for a larger screen size too.

The first 4K monitor we ever tested was glorious but was only a 24-inch panel, so we couldn’t quite appreciate the 8.3 million pixels we were generating. Step that up to the 55-inch Philips Momentum monitor and your high resolution world is writ large.How do we test 4K gaming monitors?There are two main ways to test a screen to determine whether it"s the best gaming monitor material. The first is by playing games on it. Subjectively testing the gaming performance of each panel isn’t necessarily going to give you the lowdown on the specifics of a particular screen. Still, it will let you test the functioning aspect ratio, native resolution, and any specific gamer-centric technologies they’re sporting.

Side-by-side comparative testing in this manner is also precious for keying into the sometimes subtle differences between each panel. When you use a screen in isolation, it’s easy to become blind to its comparative faults as you get used to them. Testing screens back-to-back allows us to discover and highlight specific issues between them.

We also use a heap of standardized tests produced by Lagom(opens in new tab) to ensure levels and saturation are visually up to our standards.Should I go for an IPS, TN or VA panel?We would always recommend an IPS panel over TN(opens in new tab). The clarity of image, viewing angle, and color reproduction are far superior to the cheaper technology, but you"ll often find a faster TN for cheaper. The other alternative, less expensive than IPS and better than TN, is VA tech. The colors aren"t quite so hot, but the contrast performance is impressive.Should I go for a FreeSync or G-Sync monitor?In general, FreeSync monitors will be cheaper. It used to be the case that they would only work in combination with an AMD GPU. The same went for G-Sync monitors and Nvidia GPUs. Nowadays, though, it is possible to find G-Sync compatible FreeSync monitors(opens in new tab) if you"re intent on spending less.What aspect ratio should I go for?Today"s movies and games are best enjoyed in a widescreen format at a 16:9 aspect ratio or above. In 4:3, those cinematic moments will look stunted with black strips along the top and bottom. There are a host of minute variations on each ratio, but at the end of the day choosing between these depends entirely on your personal preference.

Plenty of games support these ultrawide resolutions, and while not often full 4K, they do demand nearly as much out of your GPU and deliver a similarly high-fidelity and immersive experience.

TN PanelsTwisted-nematic is the most common (and cheapest) gaming panel. TN panels tend to have poorer viewing angles and color reproduction but have higher refresh rates and response times.

IPSIn-plane switching, panels offer the best contrast and color despite having weaker blacks. IPS panels tend to be more expensive and have higher response times.

VAVertical Alignment panels provide good viewing angles and have better contrast than even IPS but are still slower than TN panels. They are often a compromise between a TN and IPS panel.

HDRHigh Dynamic Range. HDR provides a wider color range than normal SDR panels and offers increased brightness. The result is more vivid colors, deeper blacks, and a brighter picture.

ResolutionThe number of pixels that make up a monitor"s display, measured by height and width. For example: 1920 x 1080 (aka 1080p), 2560 x 1440 (2K), and 3840 x 2160 (4K).Round up of today"s best deals

4K resolution refers to a horizontal display resolution of approximately 4,000 pixels.Digital television and digital cinematography commonly use several different 4K resolutions. In television and consumer media, 3840×2160 (4K UHD) is the dominant 4K standard, whereas the movie projection industry uses 4096×2160 (DCI 4K).

The term "4K" is generic and refers to any resolution with a horizontal pixel count of approximately 4,000.: 2 Several different 4K resolutions have been standardized by various organizations.

The terms "4K" and "Ultra HD" are used more widely in marketing than "2160p". While typically referring to motion pictures, some digital camera vendors have used the term "4K photo" for still photographs, making it appear like an especially high resolution even though 3840×2160 pixels equal approximately 8.3 megapixels, which is not considered to be especially high for still photographs.

In 2005, Digital Cinema Initiatives (DCI), a prominent standards organization in the cinema industry, published the Digital Cinema System Specification. This specification establishes standardized 2K and 4K container formats for digital cinema production, with resolutions of 2048 × 1080 and 4096 × 2160 respectively.: §4.3.1 The resolution of the video content inside follows the SMPTE 428-1 standard,: §3.2.1 which establishes the following resolutions for a 4K distribution:: 6

Some articles claim that the terms "2K" and "4K" were coined by DCI and refer exclusively to the 2K and 4K formats defined in the DCI standard.: 2: 109

Although the UHDTV standard does not define any official names for the formats it defines, ITU typically uses the terms "4K", "4K UHD", or "4K UHDTV" to refer to the 3840 × 2160 system in public announcements and press releases ("8K" for the 7680 × 4320 system).

The CEA definition does allow manufacturers to use other terms—such as 4K—alongside the Ultra HD logo.: 9 Since the resolution in CEA"s definition is only a minimum requirement, displays with higher resolutions such as 4096 × 2160 or 5120 × 2880 also qualify as "Ultra HD" displays, provided they meet the other requirements.

Some 4K resolutions, like 3840 × 2160, are often casually referred to as 2160p.HDTV and SDTV formats, which refer to a format by the number of pixels/lines along the vertical axis (such as "1080p" for 1920 × 1080 progressive scan, or "480i" for the 480-line interlaced SDTV formats) rather than the horizontal pixel count (≈4000 or "4K" for 3840 × 2160).

The term "2160p" could be applied to any format with a height of 2160 pixels, but it is most commonly used in reference to the 4K UHDTV resolution of 3840 × 2160 due to its association with the well-known 720p and 1080p HDTV formats. Although 3840 × 2160 is both a 4K resolution and a 2160p resolution, these terms cannot always be used interchangeably since not all 4K resolutions are 2160 pixels tall, and not all 2160p resolutions are ≈4000 pixels wide. However, some companies have begun using the term "4K" to describe devices with support for a 2160p resolution, even if it is not close to 4000 pixels wide. For example, many "4K" dash cams only support a resolution of 2880 × 2160 (4∶3);5120 × 2160 (64∶27) TV, but marketed it as a "4K" TV despite its 5K-class resolution.

In 2015, LG Display announced the implementation of a new technology called M+ which is the addition of white subpixel along with the regular RGB dots in their IPS panel technology.

Most of the new M+ technology was employed on 4K TV sets which led to a controversy after tests showed that the addition of a white sub pixel replacing the traditional RGB structure would reduce the resolution by around 25%. After tests done by Intertek in which the technical aspects of LG M+ TVs were analyzed and they concluded that "the addressable resolution display is 2,880 X 2,160 for each red, green, blue", in other words, the LG TVs were technically 2.8K as it became known in the controversy.

Video sharing website YouTube and the television industry have adopted 3840×2160 as their 4K standard.VOD content to cable and satellite companies in North America.Canadian Radio-Television and Telecommunications Commission to provide educational content.

In 2014, the Digital Video Broadcasting Project released a new set of standards intended to guide the implementation of high resolution content in broadcast television. Dubbed DVB-UHDTV, it establishes two standards, known as UHD-1 (for 4K content) and UHD-2 (for 8K content). These standards use resolutions of 3840×2160 and 7680×4320 respectively, with framerates of up to 60Hz, color depth up to 10bpc (30bit/px), and HEVC encoding for transmission.

In the year 2014, the OnePlus One was released with the option to record DCI 4K (4096 × 2160) at 24 frames per second, as well as LG G3 and Samsung Galaxy Note 4 with optical image stabilization.

In the year 2015, Apple announced the iPhone 6s was released with the 12megapixel camera that has the option to record 4K at 25 or 30 frames per second.

In 1984, Hitachi released the CMOS graphics processor ARTC HD63484, which was capable of displaying up to 4K resolution when in monochrome mode.bit-mapped desktop publishing market.Dalsa Origin, released in 2003.University of California, San Diego, CALIT2, Keio University, Naval Postgraduate School and others that realizedCineGrid. YouTube began supporting 4K for video uploads in 2010 as a result of leading manufacturers producing 4K cameras.VP9 video compression standard, saying that it was more suitable for 4K than High Efficiency Video Coding (HEVC). Google, which owns YouTube, developed VP9.

In 2014, Netflix began streaming Amazon Studios began shooting their full-length original series and new pilots with 4K resolution in 2014.Amazon Video.

In March 2016 the first players and discs for Ultra HD Blu-ray—a physical optical disc format supporting 4K resolution and high-dynamic-range video (HDR) at 60 frames per second—were released.

On August 2, 2016, Microsoft released the Xbox One S, which supports 4K streaming and has an Ultra HD Blu-ray disc drive, but does not support 4K gaming.PlayStation 4 Pro, which supports 4K streaming and gaming,checkerboard rendering or are upscaled 4K.Xbox One X, which supports of 4K streaming and gaming,

Though experiencing rapid price drops beginning in 2013 for viewing devices, the home cinema digital video projector market saw little expansion, with only a few manufacturers (only Sony as of 2015normal human vision.upscaling or from native 4K sources at a much lower price than native 4K projectors.8K flight simulation for Boeing that met the limits of 20/25 visual acuity.

Pixel shifting, as described here, was pioneered in the consumer space by JVC, and later in the commercial space by Epson. That said, it is not the same thing as "true" 4K. More recently, some DLP projectors claim 4K UHD (which the JVCs and Epsons do not claim).

As noted above, DCI 4K is 4096×2160, while 4K UHD is 3840×2160, producing a slight difference in aspect ratio rather than a significant difference in resolution. Traditional displays, such as LCD or OLED, are 3840 pixels across the screen, with each pixel being 1/3840th of the screen width. They do not overlap—if they did, they would suffer reduced detail. The diameter of each pixel is basically 1/3840th of the screen width or 1/2160th of the screen height - either gives the same size pixel. That 3840×2160 works out to 8.3 megapixels, the official resolution of 4K UHD (and therefore Blu-ray UHD discs).

The 4K UHD standard does not specify how large the pixels are, so a 4K UHD projector (Optoma, BenQ, Dell, et al.) counts because these projectors have a 2718 × 1528 pixel structure. Those projectors process the true 4K of data and project it with overlapping pixels, which is what pixel shifting is. Unfortunately, each of those pixels is far larger: each one has 50% more area than true 4K. Pixel shifting projectors project a pixel, shift it up to the right, by a half diameter, and project it again, with modified data, but that second pixel overlaps the first.

In other words, pixel shifting cannot produce adjacent vertical lines of RGBRGB or other colors where each line is one pixel (1/3840th of the screen) wide. Adjacent red and green pixels would end up looking like yellow, with a fringe on one side of red, on the other of green - except that the next line of pixels overlaps as well, changing the color of that fringe. 4K UHD or 1080p pixel shifting cannot reveal the fine detail of a true 4K projector such as those Sony ships (business, education and home markets). Also, JVC has one true 4K projector priced at $35,000 (as of mid-2017).

So while 4K UHD appears like it has a pixel structures with 1/4 the area of 1080p, that does not happen with pixel shifting. Only a true 4K projector offers that level of resolution. This is why "true" 4K projectors cost so much more than 4K UHD projectors with otherwise similar feature sets. They produce smaller pixels, finer resolution, no compromising of detail or color from overlapping pixels. By comparison, the slight difference in aspect ratio between DCI and 3840 × 2160 pixel displays without overlap is insignificant relative to the amount of detail.

In November 2014, United States satellite provider DirecTV became the first pay TV provider to offer access to 4K content, although limited to selected video-on-demand films.BT Sport launched a 4K feed, with its first broadcast being the 2015 FA Community Shield football match. Two production units were used, producing the traditional broadcast in high-definition, and a separate 4K broadcast. As the network did not want to mix 4K footage with upconverted HD footage, this telecast did not feature traditional studio segments at pre-game or half-time, but those hosted from the stadium by the match commentators using a 4K camera. BT envisioned that if viewers wanted to watch studio analysis, they would switch to the HD broadcast and then back for the game. Footage was compressed using H.264 encoders and transmitted to BT Tower, where it was then transmitted back to BT Sport studios and decompressed for distribution, via 4K-compatible BT TV set-top boxes on an eligible BT Infinity internet plan with at least a 25 Mbit/s connection.

In late 2015 and January 2016, three Canadian television providers – including Quebec-based Vidéotron, Ontario-based Rogers Cable, and Bell Fibe TV, announced that they would begin to offer 4K compatible set-top boxes that can stream 4K content to subscribers over gigabit internet service.Rogers Communications announced that it planned to produce 101 sports telecasts in 4K in 2016 via its Sportsnet division, including all Toronto Blue Jays home games, and "marquee" National Hockey League games beginning in January 2016. Bell Media announced via its TSN division a slate of 4K telecasts to begin on January 20, 2016, including selected Toronto Raptors games and regional NHL games.

On January 14, 2016, in cooperation with BT Sport, Sportsnet broadcast the first ever NBA game produced in 4K – a Toronto Raptors/Orlando Magic game at O2 Arena in London, England. On January 20, also during a Raptors game, TSN presented the first live 4K telecast produced in North America.

Dome Productions, a joint venture of Bell Media and Rogers Media (the respective owners of TSN and Sportsnet), constructed a "side-by-side" 4K mobile production unit shared by Sportsnet and TSN"s first 4K telecasts; it was designed to operate alongside a separate HD truck and utilize cameras capable of output in both formats.2016 Toronto Blue Jays season, Dome constructed "Trillium" – a production truck integrating both 4K and 1080i high-definition units.CTV also broadcast the 2016 Juno Awards in 4K as the first awards show presented in the format.

In February 2016, Univision trialed 4K by producing a closed circuit telecast of a football friendly between the national teams of Mexico and Senegal from Miami in the format. The broadcast was streamed privately to several special viewing locations. Univision aimed to develop a 4K streaming app to publicly televise the final of Copa América Centenario in 4K.DirecTV and CBS Sports announced that they would produce the "Amen Corner" supplemental coverage from the Masters golf tournament in 4K.

After having trialed the technology in limited matches at the 2013 FIFA Confederations Cup,2014 FIFA World Cup (via private tests and public viewings in the host city of Rio de Janeiro),2018 FIFA World Cup was the first FIFA World Cup in which all matches were produced in 4K. Host Broadcasting Services stated that at least 75% of the broadcast cut on each match would come from 4K cameras (covering the majority of main angles), with instant replays and some camera angles being upconverted from 1080p sources. These broadcasts were made available from selected rightsholders, such as the BBC in the United Kingdom, and selected television providers in the United States.

The resolution of 3840 × 2160 is the dominant 4K resolution in the consumer media and display industries. This is the resolution of the UHDTV1 format defined in SMPTE ST 2036–1,Rec. 2020,Ultra HD displays and projectors.3840 × 2160 was also chosen by the DVB project for their 4K broadcasting standard, UHD-1.

This resolution is used mainly in digital cinema production, and has a total of 8,847,360 pixels with an aspect ratio of 256∶135 (≈19∶10). It was standardized as the resolution of the 4K container format defined by Digital Cinema Initiatives in the Digital Cinema System specification, and is the native resolution of all DCI-compliant 4K digital projectors and monitors.SMPTE 428-1:: §3.2.1 : p. 6

4096×2560 (1.60∶1 or 16∶10); this resolution was used in the Canon DP-V3010, a 30-inch (76 cm) 4K reference monitor designed for reviewing cinema footage in post-production, released in 2013.

4096×2304 (1.77∶1 or 16∶9); this resolution was used in the 21.5-inch (55 cm) LG UltraFine 22MD4KA 4K monitor, jointly announced by LG and Apple in 2016Retina iMac computer.

3840×1080 (3.55∶1 or 32∶9); this resolution was first used in the Samsung C49HG70, a 49-inch (120 cm) curved gaming monitor released in 2017. This resolution is equivalent to dual 1080p displays (1920×1080) side-by-side, but with no border interrupting the image. It is also exactly one half of a 4K UHD (3840×2160) display. Samsung refers to this resolution as "DFHD" (Dual Full HD).

The main advantage of recording video at the 4K standard is that fine spatial detail is resolved well.megapixel still photographs, while only 2.1 megapixels at 1080p and 0.9 megapixels at 720p. If the final video quality is reduced to 2K from a 4K recording, more detail is apparent than would have been achieved from a native 2K recording.contrast is then possible with output to DVD and Blu-ray.Super 35 film format to offset any resolution loss that may occur during video processing.

Goulekas, Karen (2001). Morgan Kaufmann. p. 587. ISBN 9780080520711. 4K resolution: A general term referring to any digital image containing an X resolution of approximately 4096 pixels.

Nick Pino, Jon Porter (March 8, 2018). "4K and Ultra HD: Everything you need to know about the hot new resolution". Tech Radar. Archived from the original on August 19, 2018. Retrieved September 1, 2018.

"STERIO 4K 2880x2160/P24 Dash Cam". Amazon.com. Archived from the original on September 1, 2018. Super HD 4K 2880x2160P Resolution and 170 Degree A+ Ultra Wide Angle---Record every detail with the latest technique of car video shooting.

"AUKEY 4K Dash Cam". Amazon.com. Archived from the original on September 1, 2018. Retrieved September 1, 2018. An advanced image sensor and super-wide field of view capture everything in ultra-sharp 4K(2880 x 2160 @24fps) video with HDR.

"105" CLASS 105S9 CURVED 4K UHD SMART TV". samsung.com. Archived from the original on 2017-09-09. Retrieved 2018-09-01. Type: Curved 4K UHD TV; Resolution: 5120 x 2160

Wheatley, Mike (July 30, 2014). "Samsung & LG Begin Sales of 105" 21:9 4K, Nay, 5K TV". HDTVtest. Archived from the original on 2017-09-09. Retrieved September 1, 2018.

"Leading Television Industry Players Line Up To Support "4K Ultra HD"" (Press release). Consumer Electronics Association. 11 November 2014. Archived from the original on 23 September 2015. Retrieved 18 December 2014.

Rivington, James (July 7, 2014). "4K TV channels on the way as DVB-UHDTV standard is approved". TechRadar. Future Publishing Limited. Retrieved April 29, 2018.

Jukic, Stephanie. "4K & Ultra HD Resolution". 4K.com. Archived from the original on 30 July 2019. Retrieved 26 November 2014. YouTube has had a 4K channel running since as early as 2010 and other developments are definitely on the horizon, especially in countries or regions with excellent internet connectivity that goes above the normal speeds available to most people.

Sarukkai, Ramesh (2010-07-09). "What"s bigger than 1080p? 4K video comes to YouTube". Archived from the original on 16 July 2011. Retrieved 2011-08-20.

Ohannessian, Kevin. "Where Can You Get 4K Video?". Toms"s Guide. Purch, Inc. Retrieved 26 November 2014. YouTube and Vimeo already stream 4K content. Most of the videos are of the nature/documentary variety, with some tech media covera