lcd display refresh rate brands

The best high refresh rate monitors deliver crisp and smooth visuals during your gaming sessions. That doesn"t just mean a more enjoyable experience; it also means you"ll have a winning advantage as a fast display is able to deliver more images per second to keep up with your fast movements, making them great for competitive gaming.

60Hz and 120Hz monitors are hardly obsolete and will more than suffice for most of your viewing needs. However, some situations do call for a higher refresh rate. The best monitors that offer refresh rates 144Hz and faster are the cream of the crop, especially where gamers are concerned. If your PC’s graphics card is putting out higher frame rates, for example, or if a smoother, screen tearing-free gaming experience is much more important than higher resolution gameplay, then a higher refresh rate monitor is a better solution.

We"ve tested many gaming monitors in the last few years, so we know which ones are worth your money. To help you, we found all the best high refresh rate monitors available right now, considering size, budget, and different needs. From 165Hz panels that will serve you well when playing the latest fast-paced PC games to those monitors with a whopping 360Hz refresh rate that will help you rise to the top of the leaderboards, here are our top picks.

High refresh rate monitors may typically cost more, but that doesn’t mean that there aren"t excellent affordable options available. Out of those, the Gigabyte Aorus CV27Q may be the best, offering that fast refresh rate in a QHD package for less than you"d expect. You can count on its reliable 165 Hz refresh rate and adaptive sync to deliver a smooth gaming experience.

Just in case that isn’t enough to convince you, Gigabyte also throws in 1500R curvature, 3000:1 contrast ratio, VESA-certified DisplayHDR 400 should, and 1ms response time. That’s a lot of impressive features for gaming immersion that you won’t find in some of the more premium panels. The color support is limited to 90% DCI-P3 and the input ports don’t include a USB-C, but at that price, we’re not complaining. Especially if you need something fast yet affordable for gaming.

The AOC CU34G2X is similar to the Samsung Odyssey G7 in that you get a refresh rate of 144Hz, 1ms response time, and a 1440p resolution. Unlike the Samsung panel, however, this one is much lower in price point, which makes it a fantastic budget option for those who need something cheap.

Just because it"s a budget monitor, however, that doesn"t mean there"s very minimal features here. On the contrary, you"re getting an ultrawide 21:9 monitor with a curvature, a brightness of 300 nits, and a solid port selection with two HDMI 2.0 ports, a 3.5mm headphone jack, two DisplayPort 1.4, and two USB 3.2 Type-A ports.

The Corsair Xeneon 32QHD165 comes at a premium, but you’re also paying for more than just its fast refresh rate. A 1440p resolution, DisplayHDR 400, 100% Adobe RGB and 98% DCI-P3 color gamuts, and all the ports you could ask for including one USB-C port — they all make this an impressive display and not just for gamers.

We found that its core image quality bright, vibrant and punchy, while also being natural looking and nicely calibrated right out of the box. Thanks to its fast refresh rate, there’s also almost no visible overshoot or inverse ghosting and very minimal blurring.

While it may need some calibrating out of the box, the Samsung Odyssey G7 is quite the panel. An incredibly fast 240Hz refresh rate paired with a 1440p resolution will make you forget all about those 4K options as this is the sweet spot for a lot of gaming. Even if you don"t notice the difference, but still you"ll have the peace of mind knowing that if you"re hitting up to 240fps in games, your monitor is keeping up.

But, none of that matters if the performance isn’t there. Luckily, the Alienware AW2721D is fast, thanks to that 240Hz refresh rate, delivering sharp, clean, and smooth picture quality. That"s certainly an advantage during fast and hectic gameplay when crisp visuals are crucial to winning.

The Asus TUF VG259QM might be the a speedy little monitor you want if you"re looking for display that can deliver exceptionally smooth performance. Not only does it boast an incredibly fast 280Hz refresh rate, but it also allows you to use G-Sync at the same time as the Asus’ own ELMB or Extreme Low Motion Blur Sync. What you"re getting, therefore, is picture quality that’s incredibly crisp and smooth no matter how fast you’re pushing it.

The MSI Oculux NXG253R is yet another affordable monitor if you"re looking for something that"s incredibly fast. Its 360Hz refresh rate at this price point, however, is especially uncommon, but it does mean don’t have to break the bank to gain access to these blazing fast speeds.

The ASUS ROG Swift PG259QNR might be light on features, but it comes with everything necessary to make the most of its lightning fast performance. That 360Hz refresh rate is already impressive. But, the inclusion of ULMB or Ultra Low Motion Blur, Nvidia G-Sync, and Nvidia’s Reflex Latency Analyzer allows you to fine-tune that speed.

The Alienware AW3423DW is a fantastic option if you"re looking to merge fast refresh rates with OLED technology, which has only recently come to computer and gaming monitors. This display delivers an almost impeccable gaming performance, thanks to its smooth motion processing, 175Hz refresh rate, and quick response time, which makes it a great proposition for gamers who love fast-paced games or do competitive gaming.

You are paying quite a sum for all of that. However, if you can afford it, rest assured you"re getting your money"s worth.How to choose the best high refresh rate monitor for youThere are a couple of caveats to know before you invest in a high refresh rate monitor, however. First, these panels tend to be pricey – or at least, more expensive than their 60Hz and 120Hz counterparts – for the simple reason that they’re more expensive to make. Second, you’ll be sacrificing high resolution to get that high refresh rate.

While there are now 4K displays with 144Hz refresh rate, there are only a few of them out there as it’s fairly new. And, if you want one with an even higher refresh rate, you’re stuck with 1080p and 1440p options. At least, for now. So, if you have a tight budget or if having a 4K screen is a priority, this might not be the best option for you.Round up of today"s best deals

Like with their TV lineup, Samsung offers the best features and performance with their high-end models like the Samsung LS32BG852NNXGO, and lower-end models tend to sacrifice features and performance for a lower cost. For example, the Samsung Odyssey Neo G7 S32BG75 is a step down from the Neo G8 and costs less, but it has a lower 165Hz refresh rate compared to 240Hz on the Neo G8. It means that Samsung"s best options are their high-end ones, as their budget displays, like the Samsung Odyssey G3 S24AG30, have limited performance.

The best high refresh rate monitors are as important a piece of a competitive gaming setup as a great graphics card, mouse, or keyboard. If you want to see the smooth look of a game running at a high refresh rate like 144Hz or 240Hz, a high refresh rate monitor will deliver that experience, and you probably won"t be able to go back to anything lower.

What refresh rate should you be looking for in a potential upgrade? You can feel the difference between even 60Hz and 75Hz monitors, though you start to notice the benefits in-game around 120Hz. We consider the standard for gaming monitors is 144Hz, though 165Hz is common enough with overclocked panels. Beyond that, you have 240Hz and 360Hz, targeting competitive gamers, such as twitch shooter players. These usually come alongside lower resolutions and higher price tags, so you want to be sure you"ll need that snappy response before investing in a 240/360Hz gaming monitor. Don"t even get us started on 480Hz gaming monitors(opens in new tab)that are supposedly coming pretty soon.

Refresh rate is just one element of modern gaming monitors, though, and what else you desire is up to you. Should you go for an IPS or VA panel, for instance. And what about panel, size, shape, and resolution? Is the 16:9 aspect ratio still the most versatile and compatible, or is ultrawide the way? Do curved panels add anything? And what about resolution? 4K? Or does 1440p strike a better balance? Is 1080p obsolete?

We"ve tested each of these high refresh rate gaming monitors in this list to see whether their claims stand up and make sure no compromise has been made to post those sky-high refresh rate claims.

Refresh rate, resolution, black levels, panel size: pick two. That"s been the PC monitor buyer"s dilemma for several years now, since we collectively realised that yes, playing at a higher refresh rate does actually make you better at Counter-Strike. MSI"s latest panel, bearing the catchy moniker Oculux NXG253R, aims to at least address the most common tradeoff in modern gaming panels: refresh rate for colour quality.

Whereas the majority of high refresh rate panels are VA or TN screens with limited viewing angle and shallow colours, MSI"s latest is built around an IPS panel, with all the inky blacks and rich colours that technology brings with it. Traditionally IPS has been slower to the party since it"s costlier to manufacture high refresh rate panels, but evidently enough of us are sold on 120Hz and beyond.360Hz does look and feel smoother than 120Hz.

At enthusiast level, there"s still just a sense of pure enjoyment in watching Overwatch or Quake Champions zip along. Anecdotally, I found D.Va"s out-of-suit pistol combat that bit easier with frames and refresh rate way up at 300 (the game"s capped there) since my targets were always where my screen told me they were. In similarly frenetic Quake Champions matches, I pulled off Ranger"s tricky teleport kill with a bit more ease, too.

But something to bear in mind: you still need the GPU to get your frame rate up there in the hundreds in order to feel the benefit of that 360Hz refresh.

This being an IPS panel with typically darker blacks, it definitely looks more vivid in-game than even a good TN screen, and the colours hold up at any viewing angle. You"ve got a few preset brightness and color balance modes to cycle between on the OSD, arranged by genre. FPS is super-bright and saturated, racing is a bit more subdued by contrast. Out of the box, the default colour and brightness settings are easy on the eye and really sell the IPS benefit.

This monitor isn’t perfect. But it is dramatically better than any LCD-based monitor by several gaming-critical metrics. And it’s a genuine thrill to use. Of course, that’s getting ahead of ourselves. First, we need to cover off the basics.

What makes the AW3423DW far superior to your typical LCD panel on a PC gaming monitor is the near-percent color saturation and screen brightness capable of hitting a peak brightness of 1000 nits. It"s done all this while providing a ridiculously fast 175Hz refresh rate and a response time of .1ms. It might just be the best 3440 x 1440p gaming monitor we"ve ever used, and, boy, do we look at a lot of ultrawide.

Common to all OLED tech are two critical advantages over any LCD panel, namely contrast and response. Put simply, every pixel in an OLED panel is its own light source, which can be turned completely off, essentially delivering ‘true’ black levels and more or less infinite contrast. There’s no need for any of that complicated, problematic local dimming to stop the light from leaking through an LCD panel. OLED is the real HDR deal.

Unlike LCD monitors with claimed HDR capability, this OLED screen needs to be in HDR mode to do its thing. And that applies to SDR content, too. Alienware has provided two HDR modes, HDR 400 True Black and HDR Peak 1000. The latter enables that maximum 1,000 nit performance in small areas of the panel but actually looks less vibrant and punchy most of the time.

Instead, it’s the HDR 400 True Black mode that generally gives the best results. That includes SDR content. For SDR content to look its best, you have to jump into the Windows Display Settings menu and crank the SDR brightness up, after which it’s much zingier all around. That’s actually handy because it means that once you have the AW3423DW set up properly, you’re all done. There’s no need to switch modes for SDR and HDR content.

Why, exactly, does the AOC Agon AG273QXP run at 170Hz refresh? Is it a cynical marketing move designed to give AOC’s latest gaming panel a superficial edge over the usual 165Hz suspects? Is there some specific technical reason for the extra 5Hz?

It’s a pity to be distracted by such trivia because the AOC Agon AG273QXP has loads going for it. That 170Hz panel is a 1440p IPS item, making it a goldilocks model for modern gaming. Not too many pixels. Not too few. But just the right balance between visual detail and frame rate.

You can add extras like adaptive sync support in the form of AMD FreeSync Premium Pro and Nvidia G-Sync Compatibility, plus VESA DisplayHDR 400 certification. Rounding it all out is a claimed response time of 1ms.

Cyberpunk 2077 looks glorious, that’s for sure. The Agon sports a pretty decent HDR implementation, too. At least it does for an HDR 400 panel that lacks local dimming. Like any other HDR 400 screen, it’s not a true HDR experience. But this is still a great high refresh rate monitor.

1080p not your bag? Better jog on as the Acer Predator XB253QGX won’t be for you. It isn’t really for most of us, either, given 1440p is a better all-around compromise for most gamers from a purely visual point. But if ultra-low latency and frames rates high enough to give you a nosebleed sounds like your thing, this 1080p 25-incher should be on your shortlist.

It’s very similar to the Alienware 25 but clocks in at a mere 240Hz to the Alienware’s outrageous 360Hz. In truth, only the most demanding esports addicts will be able to tell the difference. But if you are that sensitive to latency, the Acer’s 1080p resolution actually makes sense. After all, the fewer the pixels, the higher your frame rate.

As it happens, this Acer is slightly more vibrant than the ostensibly identical Lenovo Legion Y25-25, even if it isn’t as punchy as the much pricier Alienware. As with many screens of this type, you can fine-tune pixel response through an overdrive setting. Predictably, the most aggressive setting introduces some ghosting. But set to medium, this is a very quick IPS monitor. That said, even with a claimed MPRT response time of just 0.5ms, this is not an entirely blur-free monitor. That’s LCD technology for you.

There’s an elephant in this high refresh rate monitor round-up. And it’s the inevitable question of diminishing returns. When, exactly, do they kick in? 165Hz? 240Hz? How about 360Hz? Oh yes, this updated Alienware 25 is good for the full 360. In purely experiential and subjective terms, it’s not easy to separate it from otherwise similar 1080p IPS monitors that hum along at a comparatively pedestrian 240Hz refresh. They all feel swift.

Of course, esports aficionados with ninjascopic reflexes will appreciate the difference. And there’s certainly no penalty to pay, given this IPS panel. It’s not like you’re forced to suffer a dingy TN panel to have all those Hz. As for pixel response, it’s about as good as IPS monitors get, though once again hard to really separate from the cheaper 240Hz brigade.

But it’s actually Alienware’s other qualities that set it apart. For starters, this is the brightest and punchiest of the 25-inch bunch. The integrated Nvidia G-Sync chip also makes for a noticeably smoother low-frame-rate experience than a mere G-Sync ‘Compatible’ or FreeSync display. Ironic, given the 360Hz refresh is the main attraction.

That works out at over a billion per second at 144Hz, which just so happens to be the refresh rate of the Acer Predator XB273K, Acer’s more affordable 4K gaming panel. Compared to the pricier Acer Predator X27, it lacks local dimming, delivers lower peak brightness, and is merely G-Sync ‘Compatible’. So, there’s no Nvidia G-Sync module onboard.

None of which is to say this screen lacks appeal. No, siree. Once you’ve seen Cyberpunk 2077 running in full IPS-plus-4K glory, you won’t want to go back to 1440p, let alone crummy old 1080p. The problem is the philosophical incompatibility between maximizing image quality and frame rates at the same time. You can’t really have both. Not even with, say, an Nvidia GeForce RTX 3080(opens in new tab).

In other words, while this monitor is capable of 144Hz, you’re not going to get near those kinds of frame rates in the prettiest games. And if you’re not bothered about prettiness, you probably don’t need 4K if you follow. It’s a very nice screen, this Acer Predator XB273K, and better value than its Acer Predator X27 sibling, but it still doesn’t make much sense for this kind of money.

Unfortunately, the Viewsonic VX2718-2KPC-MHD is a VA screen slightly out of the old school, despite delivering a 165Hz refresh. Crank this 27-inch, 1440p curved monitor over for the first time, and it doesn’t bode well. In fact, the VX2718-2KPC-MHD is a bit of a blurry mess. It does improve with a little time and temperature. But even fully warmed up, it’s simply not as quick as the latest IPS panels. Or, for that matter, the implied performance of the 1ms MPRT response specification.

Incidentally, the VX2718-2KPC-MHD ‘1ms’ mode does little to improve response, but it does crush brightness and vibrancy pretty effectively. While we’re beating on Viewsonic’s latest, we note it lacks a refresh rate counter. It’s a small detail, but it’s also a handy feature to ensure that you’re running at the right refresh rate and confirm that adaptive sync is enabled.

This isn’t to imply this screen has nothing to offer. The 1440p native resolution on a 27-inch panel is a sweet combo for balancing frame rates with in-game detail, while the VA panel tech delivers plenty of contrast. Of course, as 1440p 165Hz monitors go, it’s competitively priced, but the mediocre response and lack of punch might feel a bit too budget for most.

The Lenovo also has pretty sweet build quality with a lush alloy stand, full adjustability including height, tilt, rotate and swivel, plus styling that little bit slicker and more grown-up than your average, rather adolescent, gaming peripheral. The integrated, rather than external, power supply likewise soothes our collective OCD, and G-Sync compatibility is welcome if expected in this class of screen.

High refresh rate gaming monitor FAQWhat"s the best PC monitor panel type for gaming?If in doubt, go IPS. There are now VA screens with good response speed, like the fabulous MSI MPG ARTYMIS 343CQR. But IPS more consistently delivers the goods and is now sufficiently fast in terms of refresh rate that you absolutely needn"t settle for TN anymore.What refresh rate do you really need for PC gaming?If you"re asking the question, 144Hz is probably plenty. Esports fiends who will really appreciate higher refresh rates already know who they are and what they want. And that answer is likely getting on for 240Hz these days.What"s the best resolution for a gaming monitor?With the latest unobtainable graphics cards, 4K gaming at high triple-digit refresh rates is a stretch in the most demanding games. So, 1440p (at either 16:9 or 21:9 aspect ratio) is probably the better compromise. 1080p is only of interest to those who demand the very highest frame rates for competitive shooters.Should I buy a curved gaming monitor?For our money, curved panels make the most sense in larger formats and with super-wide 21:9 or wider panels. A curved panel on, say, a smaller 27-inch 16:9 panel isn"t necessarily a bad thing. But, nor does it really add much to the experience.Does HDR matter for PC gaming monitors?The problem with HDR in this context is that few LCD monitors offer a true HDR experience. What"s more, monitors with HDR-boosting local dimming remain painfully pricey and for what is really only marginal benefit. That said, HDR certification usually ensures high brightness, and HDR 600 and beyond requires wide color support.G-Sync or FreeSync: which adaptive screen tech is best?We think screens with Nvidia"s G-Sync module built-in have the edge when it comes to smooth performance at lower frame rates. At higher frame rates, mere G-Sync compatibility is fine, and AMD"s FreeSync is likewise much of a muchness.Round up of today"s best deals

Displays with a 360 Hz refresh rate and a 2.8 ms frame time are the best gaming monitors with high refresh rates you can get today. But that will soon change. Two leading makers of LCD panels are developing display panels that feature a 480 Hz refresh rate and a 2.1 ms frame time (as well as lower overall latency). These panels will be ready sometimes in 2022, so actual displays will arrive in 2023.

Both AU Optronics and LG Display are working on LCD panels with a 480 Hz refresh rate, according to two reports by TFTCentral (1, 2). LG Display is reportedly working on multiple 480 Hz panels with the first one being a 24.5-inch with a 1080p(1920x1080) resolution. The unit is projected to be ready for mass production sometime in Q4 2022, so if everything goes well, the commercial displays based on the panel will be available in the first half of 2023. AU Optronics is also developing a 1080p panel with a 480 Hz refresh rate and aims to start mass production in 2022, but there are no further details.

Not a lot of information is available about AUO"s and LG Display"s 480 Hz panels now, which is not particularly surprising given that they are so far out. Today"s ultra-high-performance 360Hz displays use a TNpanel, though the brand new 390 Hz LCDs use AUO"s AHVA (IPS-like) panels.

To handle a panel with an extremely wide variable refresh rate range — think about 30Hz ~ 480Hz — a very high-performance display controller logic will be needed. This set of chips (or one highly integrated chip) will have to include a very high-performance image processing unit, an appropriate overdrive processor, a very fast TCON (timing controller), and a general-purpose processor that will manage operation of the said units.

For example, modern 360HzG-Syncdisplays use logic specifically designed by Nvidia. In fact, the logic behind high-end displays is just as important as the panel and the backlighting, which is why development of expensive monitors takes so long.

These 480 Hz panels are designed for monitors aimed at professional gamers who want maximum performance to maximize their potential in various eSports competitions. The market of such displays is rather small, yet lucrative. Furthermore, such high-end displays serve the same purpose as other halo products — they promote the manufacturer"s brand.

High refresh rate displays have taken on and it’s no surprise that manufacturers are responding to consumer demand with 90Hz, 120Hz, and even 144Hz panels with full HD and 2K resolution.

These displays can, however, be excessively harsh on batteries and that’s where the difference between a high refresh rate and a variable refresh rate (VRR) screen comes in.

Screens with a variable refresh rate can slow down refreshing themselves based on the content being displayed and thus conserve battery. For instance, if you are viewing a static picture or are sifting through images in your gallery app, there is no reason for the display to keep refreshing 90 times or 120 times every second; instead, a 1 fps or 15fps refresh would do just fine.

The variable refresh rate has been a staple gaming monitor feature for ages but there are several limitations when implementing the same concept on smartphones.

Let’s talk about some issues with VRR implementation on smartphones. To start with, Most Android-based user interfaces target just 60Hz. Also, DDICs (Display driver ICs) currently in use for smartphone displays reportedly doesn’t support variable refresh rates.

The variable refresh rate on modern phones is basically mode switching – the phone senses the screen content and switches to a specific refresh rate mode. This implies that a phone may be able to run at 48 Hz or at 60Hz but not at any in-between frequency like 55Hz or 58Hz.

Samsung Galaxy Note20 Ultra was the first phone to include a ‘dynamic variable refresh rate’. It does so by using HOP (Hybrid Oxide and Polycrystalline silicon) display panel that has faster switching transistors in the display backplane and also by using display driver-level optimizations.

As AnandTechdiscovered, the Galaxy Note20 Ultra switches from true variable refresh rate to mode-switching VRR based on variables like ambient light, set display brightness, and content brightness.

Xiaomi’s AdaptiveSync variable display implementation is even rawer. The IPS LCD displays on Xiaomi and Poco phones simply switch between 6 or 7 presets – 144Hz, 120Hz, 90Hz, 60Hz, 50Hz, 48Hz, and 30Hz. The company, however, claims a similar reduction in battery drain and that’s perhaps what matters.

Such implementations that support refreshes below 60Hz help conserve some battery and we will consider such phones under True Variable Refresh Rate or Dynamic Refresh Rate phone because they are being marketed as such.

Samsung Galaxy S21 Ultra (review) is the first Samsung phone to support a 120Hz dynamic refresh rate at a full 2K resolution. The Galaxy S21+ and Galaxy S21 also get variable refresh rates, but it isn’t dynamic and switching takes place in fewer present modes (48Hz, 60Hz, 96Hz, 120Hz).

iPhone 13 Pro Max sports a 6.7 inch 120Hz ProMotion display which is a fancy way of saying this handset has got an adaptive refresh rate between 10Hz and 120Hz. Now, 120Hz works on the iOS system interface, stock apps, and while you scroll content in 3rd party apps. Having said that the support for games and in-app motions and interactions would hit 120Hz only when the developer updates them. Most devs should be already on it.

Samsung recently announced its latest foldable devices – the Galaxy Z Fold 3 5G and Galaxy Z Flip 3 5G in India. Both these phones come with Samsung’s Dynamic AMOLED displays which not just fold but also manage to deliver a 120Hz refresh rate.

This display called Infinity Flex Display folds in half and you get a 6.2-inch screen on the surface. That cover panel is plenty big to use as a regular phone. Turn on the screen, you would be greeted by the OneUI 3.1 based on Android 11 with tailored software tweaks.

To justify its leap to a truly premium price segment, OnePlus has worked on improving the display of its phones. OnePlus 9 Pro has curved AMOLED screens with high-refresh-rate. It has a 6.7-inch QHD+ AMOLED panel with a 120Hz adaptive refresh rate and HDR10+ picture quality.

Off the two Pixels, the 6 Pro has got a curved screen. This is a trend wherein brands tend to use waterfall displays on their top-end model, perhaps because it appears more premium than flat. Anyhoo, this is a 6.7-inch OLED screen with a QHD+ resolution, 512ppi, 120Hz LTPO adaptive refresh rate (10Hz to 120Hz), HDR support, and Gorilla Glass Victus shield on top.

Xiaomi’s flagship phone for the year also sports a curved edge screen that measures 6.81-inches diagonally. It is an AMOLED display in nature with a resolution of 3200×1440 pixels, a variable refresh rate of up to 120Hz, and a peak brightness of 1700 nits. Now the refresh rate can vary between 30Hz and 120Hz, although if the content on the screen is 30Hz/60Hz, then the screen will stick to the 60Hz limit. This is to save power.

Asus ROG Phone 5 is one of the few phones with a 144Hz AMOLED display in the country. Now, when the refresh rate is set to Auto within Display Settings, the panel will switch between 60Hz, 120Hz, and 144Hz. Rest, it’s a 6.78-inch Full HD+ AMOLED panel that’s protected by Gorilla Glass 6. It sports an optical under-display fingerprint scanner, DCI-P3 color scale, HDR10, and SDR to HDR upscaling.

The X70 Pro+ 5G is one of the most exciting phones launched in 2021 in India and yes it has curved edges on both sides. The Vivo X70 Pro+ 5G (review) comes with a 6.78-inch AMOLED screen with curved edges that look really mesmerizing from every angle. It is of 1440 x 3200-pixel resolution and is capable of an adaptive refresh rate of up to 120Hz. The Samsung E5 LTPO AMOLED panel can dynamically switch back and forth between 1 to 120 hertz. Vivo also uses an “all-new fluorite AG coating” to ensure a smooth surface that is smudge-free.

iQOO 8 Pro sports a large 6.78-inch 2K Samsung E5 AMOLED display with a 120Hz adaptive refresh rate, 20:9 aspect ratio, 92.2 percent screen-to-body ratio, 517 PPI, HDR10+, Dolby Vision, 1.07 billion colors, and DCI-P3 color gamut. The ARR will be between 1Hz and 120Hz depending on the on-screen content.

Realme GT Neo 2 5G has got a 6.62-inch E4 AMOLED screen with a dynamic refresh rate of up to 120Hz (60-120Hz) and 600Hz touch sampling rate. The panel is FHD+ resolution as well comes with 100% DCI-P3 color coverage, HDR10+ capability, and 1300nits peak brightness.

The bezels surrounding the screen have been kept to the minimum endowing a 85.7% screen-to-body ratio. The left cornered punch-hole cutout also is unobtrusive. Rest, here under the display, you get a fingerprint reader and Corning Gorilla Glass 5 protection on top.

Find X3 Pro’s OLED display has a neat trick up its sleeve. It is capable of presenting more than a billion colors out of the photos taken using the on-device camera. This is far ahead of the 16.7 million colors you’d see on a contemporary display. As for the display specs, it is 6.7-inches in size, has Quad HD+ resolution, VRR up to 120Hz, up to 1300nits peak brightness, HDR 10+ standard, 100% DCI-P3, and Gorilla Glass 5 protection. Now that screen refresh rate can switch between 1Hz and 120Hz dynamically. It will be in the lower end whence the device is in idle mode.

The component brand, AUO, showcased two prototypes of 480Hz gaming monitors in a YouTube video to coincide with its presence at the Society for Information Display’s Display Week (SID Week) conference, which took place in San Jose, California this week.

One of the proposed displays is a 24-inch FHD PC monitor with a 480Hz refresh rate and a less than 1ms response time. The second is a 16-inch FHD laptop display with a 480Hz refresh rate and a response time of “slightly higher than 1ms.”

Ars Technica correctly notes that this is a TN 1080p panel, meaning the proposed display has traded some image quality to prove that the 480Hz refresh rate can be achieved. However, for showcasing at conferences such as SID Week, perfection is not quite necessary.

Refresh rates common on the market today for PCs and laptops are most commonly anywhere between 60Hz and 240Hz. Many gaming-focused monitors or laptops often vary between 165Hz and 240Hz, even in higher resolutions. There are even a few 360Hz displays on the market, such as the Alienware 25 AW2521H; so it does make sense that the industry is looking to experiment beyond that rate.

Ars Technica noted that AUO works with brands, including Acer, Asus, and MSI, providing them panels for monitors and laptops. These brands could be among those that might experiment first with 480Hz refresh rates in the future.

Industry players must first decide if a 480Hz refresh rate is actually useful. Well, you might expect that e-sports professionals could actually be able to make use of refresh rates that high, but the average PC gamer won’t come anywhere close to producing frame rates that high — nor would they be able to tell the difference.

Gaming PC brands in particular use variable refresh rate technology as a way to maximize system processes while still having a lower base refresh rate. Perhaps brands can implement a variable-refresh rate with a maximum of 480Hz before introducing a PC or laptop with a standard refresh rate that high.

The following is a list of mobile phones with a high refresh rate display. The refresh rate is the number of times in a second that a display hardware updates its buffer. It is not to be confused with the touch response rate, which is the frequency that the touchscreen senses input, or the frame rate, which describes how many images are stored or generated every second by the device driving the display. The first smartphone released with a high refresh rate was the Razer Phone, released in November 2017.

LG Display announced today that it will unveil its 45-inch ultra-wide OLED and 27-inch OLED displays optimized for gaming in January at CES 2023. Through these cutting-edge products, the company aims to strengthen its leadership in the high-end gaming market. LG Display"s new gaming OLED displays boast the fastest response time of 0.03ms, making them the first-ever OLED displays for monitors to provide a refresh...

MSI G273CQ with a 27-inch VA display with a 1500R curvature and a QHD resolution. The typical static contrast ratio of the model is 3000:1 and the typical brightness is 300 nits. The sRGB, Adobe RGB, and DCI-P3 color space coverage is 115%, 90%, and 90%, respectively. The monitor has a refresh rate of 170Hz with AMD FreeSync Premium certification. It is fitted with two HDMI 2.0 ports, DisplayPort 1.2, and a...

The iiyama G-Master GB3467WQSU-B5 is the successor of the iiyama G-Master GB3467WQSU-B1. With a minor difference in the ergonomy ranges and the dimensions of the model, it is not different from its predecessor. The display has an ultra-wide curved VA panel with a resolution of 3440 x 1440 px and a 1500R curvature. It supports native 8-bit color and delivers a brightness of 550 nits. The model has a 0.4 ms MPRT and a...

Acer Predator XB273U Fbmiiprzx has been unveiled by various Chinese media but there"s no official Acer listing about this model yet. This is a gaming monitor with an NVIDIA G-Sync module, hence supporting a 1Hz-360Hz refresh rate. OF course, AMD FreeSync is also supported via Adaptive-Sync. An NVIDIA Reflex Latency Analyzer is also present with one of the four USB Type-A ports dedicated to it. The additional...

MSI G321CU has been unveiled featuring a 31.5-inch 4K VA display with a 1500R curvature, 300 nits of typical brightness, and 3000:1 static contrast ratio. The display has a native refresh rate of 144Hz and delivers 4ms GTG response time with 1 ms MPRT. It is AMD FreeSync Premium certified and arrives with a number of features including Game Mode, Smart Crosshair, PiP, PbP, HDR Mode, Night Vision, Optix Scope...

For the home, Lenovo introduced two sleek new additions to its L-class monitor portfolio. Featuring a stylish, cloud grey metal frame stand that will adorn any workspace, the Lenovo L27i-40 monitor is the next-gen iteration of Lenovo’s mainstream 27-inch display line. This slim, 3-side near edgeless IPS display offers an enhanced audio and visual experience from previous models, including the addition of two...

Lenovo has also presented a pair of desktop monitors offering premium visuals - the Lenovo ThinkVision P49w-30 and Lenovo ThinkVision P32p-30. Ideal for the knowledge worker whose work demands two or more PCs to perform different functions simultaneously, the ThinkVision P49w-30 is an ultrawide, 49-inch, double QHD panoramic display. Featuring IPS Black technology, this monitor offers a 2000:1 contrast ratio for...

Designed for the modern workforce, Lenovo’s latest generation of ThinkVision VoIP Monitors include integrated, purposeful features that both enhance and simplify the virtual meeting experience. Featuring an upgraded high-definition 5MP camera with an infrared (IR) lens plus a separate RGB lens and privacy shutter, built-in dual microphones with environmental noise cancellation, and two integrated 5W speakers, users...

Gigabyte has sent out an invite for the CES 2023 in Las Vegas in early January. The brand will display its products at Booth #9199, North Hall, Las Vegas Convention Center. Gigabyte"s theme for the show is to demonstrate how the Power of Computing drives innovative technologies in different application scenarios including data centers, electric and autonomous vehicles, AI, digital creation, and gaming. While...

Dough (formerly Eve) has unveiled its "crowd-developed glossy OLED gaming monitor." Dubbed Spectrum ES07E2D it features a 27-inch QHD OLED display by LG Display with the glossy coating Dough launched to great acclaim earlier this year. The brand has used this coating in a response to the majority of its community enthusiasts who voted in favor of the glossy polarizer. The display covers 98.5% of the DCI-P3 color...

Philips 32M1C5200W has been officially unveiled featuring a 31.5-inch VA display with a 1500R curvature and an FHD resolution. The model has a typical brightness of 300 nits and a static contrast ratio of 3500:1. It supports 4 ms minimal GTG response time and 0.5 ms MPRT. The native refresh rate of the display is 240Hz supported via Adaptive-Sync technology. The monitor has a traditional Momentum series stand with...

LG Electronics is exhibiting its latest lineup of premium UltraGear OLED gaming monitors - LG 27GR95QE and LG 45GR95QE - at CES 2023. Equipped with the world"s first 240Hz OLED panel, which is exclusively manufactured by LG, the new 27- and 45-inch models deliver a record-breaking GTG response time of fewer than 0.03 ms, not to mention superior self-lit picture quality complete with accurate, lifelike colors and...

Asus Republic of Gamers has teased on social networks an upcoming high-end OLED monitor by Asus - the Asus ROG Swift PG27AQDM / Asus ROG Swift OLED PG27AQDM. This monitor will be unveiled at CES 2023 in early January next year. Obviously, the PG27AQDM features a 27-inch QHD OLED display. The teaser also mentions a 240Hz refresh rate. The rear panel is also shown to have an RGB light system as well as a logo...

ViewSonic VX2722-4K-OLED was unveiled earlier this year but it is now that it hits the stores in China. This monitor features a 27-inch 4K OLED display by JOLED - EPM269Q00V. The panel delivers native 10-bit color bit depth, 250 nits of typical and 540 nits of peak brightness, 109% Adobe RGB coverage, and a native 60Hz refresh rate. The model is VESA DisplayHDR 400 True Black certified. Being an OLED unit, it offers...

ViewSonic VX3480-2K-PRO has been launched in China priced at around CNY 2000, which equals USD 286 roughly. This gaming monitor has a 34-inch VA display with native 8-bit color support, 100% sRGB coverage, ultra-wide QHD resolution - 3440 x 1440 px, and 300 nits of typical brightness. The model is HDR10 certified. It delivers a minimal GTG response time of 3.34 ms and 1 ms MPRT. Most probably the display panel is...

Asus has unveiled a new monitor from the ROG Strix series dubbed Asus ROG Strix XG27AQV. It succeeds the Asus ROG Strix XG27AQ which was introduced two years ago. Just like its predecessor, the new model is based on a 27-inch Fast IPS display with a QHD resolution (2560 x 1440) and 8-bit color bit depth. The display delivers 400 nits of typical brightness and the model is VESA DisplayHDR 400 and HDR10 certified. The...

Philips 40B1U5601H is a new ultra-wide business monitor with a 40-inch IPS display, a resolution of 3440 x 1440 pixels, 8-bit color support, and 121% sRGB color space coverage. The typical brightness is specified as being 300 nits and the peak one - 500 nits, hence the HDR10 certification. The contrast ratio is 1200:1 and the GTG response time is 4 ms. The model has a native refresh rate is 120Hz with VRR support...

Why we like it: The Dell P3421W has a sturdy adjustable stand, lots of ports (including a USB-C port that can handle power, display, and data over a single cable), and a three-year warranty. And it has a built-in KVM switch that allows you to easily swap your keyboard, mouse, and video between two computers. The 1440p display has a 60 Hz refresh rate, which is great for typical office work, web browsing, and casual gaming.

Flaws but not dealbreakers: If you use your display in direct sunlight, this monitor might not be bright enough for you. It can also provide 65 W of power over USB-C, but some laptops require more. If you have a laptop with an Nvidia GeForce RTX GPU or an Intel Core i7 processor, you might need to keep the laptop plugged in to a separate charger or use a Thunderbolt dock that can provide the extra power.

Most ultrawide monitors are also curved. This design helps minimize viewing-angle problems—when you’re sitting centered, things on the far edges of the screen won’t look as washed out as they would on a flat display of a similar width. But this also makes ultrawide monitors inaccurate for precision tasks requiring straight lines, such as drawing, photo editing, or similar design work.

NVIDIA G-SYNC Displays with Reflex have the world’s first and only system latency measurement tool that detect clicks coming from Reflex compatible mice and measure the time for the resulting pixels (gun muzzle flash) to change on screen. With tear-free refresh rates up to 360 Hz, exceptional responsiveness, built-in esports mode, and stunning image quality, NVIDIA G-SYNC® displays will change the way you look at competitive gaming.

Gaming monitors are designed to make the output of your graphics card and CPU look as good as possible while gaming. They"re responsible for displaying the final result of all of your computer"s image rendering and processing, yet they can vary widely in their representation of color, motion, and image sharpness. When considering what to look for in a gaming monitor, it"s worth taking the time to understand everything a gaming monitor can do, so you can translate gaming monitor specs and marketing into real-world performance.

Display technology changes over time, but the basic goals of monitor manufacturers remain consistent. We"ll break down each group of monitor features below to isolate their benefits.

As you increase your display resolution, it gets harder to pick out individual pixels with the naked eye, and the clarity of the picture increases in turn.

You might already know that a screen with 4K display resolution doesn"t magically make everything it displays look 4K. If you play a 1080p video stream on it, that content usually won"t look as good a 4K Blu-ray. However, it may still look closer to 4K than it used to, thanks to a process called upscaling.

Upscaling is a way to scale lower-resolution content to a higher resolution. When you play a 1080p video on a 4K monitor, the monitor needs to “fill in” all of the missing pixels that it expects to display (as a 4K monitor has four times as many pixels as 1080p). A built-in scaler interpolates new pixels by examining the values of surrounding pixels. HDTVs often feature more complex upscaling than PC monitors (with line-sharpening and other improvements), as the latter often simply turn one pixel into a larger block of the same pixels. The scaler is likely to cause some blurring and ghosting (double images), especially if you look closely.

Players sit or stand close to their monitors, often within 20”-24”. This means that the screen itself fills much more of your vision than an HDTV (when seated at the couch) or a smartphone/tablet. (Monitors boast the best ratio of diagonal screen size to viewing distance among common displays, with the exception of virtual reality headsets). The benefits of 1440p or 4K resolution are more immediately perceptible in this close-range situation.

Contrast RatioContrast ratio, one of the most basic measures of a monitor"s performance, measures the ratio between the extremes of black and white that the screen can display. A baseline contrast ratio like 1,000:1 means that the white parts of the image are 1,000 times brighter than the dark parts.

Use caution when LCDs advertise very high “dynamic contrast ratios”, which are achieved by changing the behavior of the backlight. For gaming or everyday use, the standard “static” contrast ratio discussed above is a better marker of the monitor"s quality.

LuminanceBrightness is often measured in “luminance”, a precise measure of how much light is emitted by the screen. It"s given in candelas per square meter (cd/m2), a unit which is also called a “nit”. For HDR displays, the VESA (Video Electronics Standards Association) has standardized a suite of tests for luminance using specific test patches. When comparing luminance specs, check to make sure they use this consistent test platform, rather than a proprietary metric.

Black LevelIn all LCD screens, light from the backlight inevitably leaks through the liquid crystal. This provides the basis for the contrast ratio: For example, if the screen leaks 0.1% of the illumination from the backlight in an area that"s supposed to be black, this establishes a contrast ratio of 1,000:1. An LCD screen with zero light leakage would have an infinite contrast ratio. However, this isn"t possible with current LCD technology.

“Glow” is a particular issue in dark viewing environments, which means that achieving low black levels is a major selling point for LCD monitors. However, an LCD screen can’t reach a black level of 0 nits unless it’s completely turned off.

Color DepthMonitors need to display many subtle shades of color. If they can"t smoothly transition between slightly different hues, we see onscreen color “banding” — a stark shift between two different colors, creating visibly lighter, and darker bands where we should see a seamless gradient. This is sometimes referred to as “crushing” the colors.

A monitor"s ability to display many slightly different colors, and thus avoid banding and inaccuracy, is measured by color depth. Color depth specifies the amount of data (measured in bits) the screen can use to build the color of one pixel.

True 10-bit monitors are rare — many monitors use forms of internal color processing, such as FRC (frame rate control), to approximate a greater color depth. A “10-bit” monitor could be an 8-bit monitor with an additional FRC stage, often written as “8+2FRC”.

Some inexpensive LCD panels use 6-bit color along with “dithering” to approximate 8-bit color. In this context, dithering means the insertion of similar, alternating colors next to one another to fool the eye into seeing a different in-between color that the monitor cannot accurately display.

Frame Rate Control, or FRC, alternates different colors with each new frame to achieve this. While this can be implemented more cheaply than 8-bit True Color, color accuracy suffers, especially in low-light environments. Some screens also feature 8-bit color depth with an additional FRC stage (commonly listed as “8-bit + FRC”) to approximate 10-bit color.

Monitors sometimes feature a Look-Up Table (LUT) corresponding to a higher color depth, such as 10-bit color. This helps speed up color correction calculations that take place within the monitor as it converts color input to a color output appropriate for your screen. This intermediate step can help create smoother color transitions and more accurate output. These are usually reserved for more professional grade monitors than general consumer and gaming displays.

Your eye can see a much wider spectrum of color than current displays can reproduce. To visualize all visible colors, a standard called CIE 1976 maps them to a grid, creating a horseshoe-shaped graph. The color gamuts available for monitors appear as subsets of this graph:

In LCD screens, the backlight and color filters determine the color space. All of the light created by the backlight passes through a color filter with red, green, and blue spots. Narrowing the “band-pass” of this filter restricts the wavelengths of light that can pass through, increasing the purity of the final colors produced. Although this lessens the screen"s efficiency (as the filter now blocks more of the backlight"s output), it creates a wider color gamut.

HDR monitors display brighter images with better contrast and preserve more detail in both light and dark areas of the screen. Using an HDR monitor, you might be better able to spot something moving down a dark corridor in a horror game, or see more dramatic shafts of sunlight in an open-world title.

Though they work best with HDR content (which only some games and movies support), these monitors typically support 10-bit color depth and backlights that support a wide color gamut, which will also improve standard content (SDR). (Note that HDR monitors are often not true 10-bit color, but rather 8+2FRC displays that accept a 10-bit input signal).

For LCD displays, a high-end backlight feature called local dimming is critical to HDR quality. Dimming zones for the backlight behind the screen control the brightness of groups of LEDs; more dimming zones means more precise control, less “blooming” (where light areas of the image brighten dark ones), and generally improved contrast.

It can be tough to evaluate the quality of an HDR monitor on your own. You should rely on HDR standards like VESA’s DisplayHDR, which measures the relative quality of an HDR monitor by listing out specs like their dimming capability.

The DisplayHDR standard is more reliable than specs that are advertised as "Typical", as that wording allows manufacturers to list results that are true averages. Look for monitors that meet the minimum specification for different levels of DisplayHDR.

On the low end, a DisplayHDR 400 screen can have a peak brightness of 400 nits (compared to a 300-nit standard monitor), but only needs a standard 95% sRGB color gamut and 8-bit color depth. DisplayHDR 400 doesn"t require backlight local dimming.

On the higher end, a DisplayHDR 600 screen needs a brightness of 600 nits, 90% of the DCI-P3 color gamut (providing a wider color space), 10-bit color depth, and some form of local dimming.

OLED standards add additional requirements to showcase the technology"s deeper black levels. DisplayHDR True Black 400 and 500 require a black level below 0.0005 in addition to similar peak brightness standards.

Refresh rate is the frequency at which your entire screen refreshes the image. Higher refresh rates make onscreen motion look smoother, because the screen updates the position of each object more rapidly. This can make it easier for competitive players to track moving enemies in a first-person shooter, or just make a screen feel more responsive as you scroll down a webpage or open an app on your phone.

Response rates are measured in hertz: A response rate of 120Hz, for example, means that the monitor refreshes every pixel 120 times per second. While 60Hz was once the standard for both PC monitors and smartphones, manufacturers are increasingly adopting higher refresh rates.

A higher refresh rate makes it easier to track moving objects with your eye, makes sharp camera movements feel smoother, and reduces perceived motion blur. Online communities are divided about the improvement provided by monitors over 120Hz. If interested, it"s worth checking one out in person to see how much of a difference it might make for you.

Frame rate, measured in frames per second (FPS), tracks the number of images your graphics hardware draws. This online motion test demonstrates the improvements players will see when tracking moving objects at higher frame rates and refresh rates.

However, you"ll only actually see those extra frames onscreen if you have a refresh rate that matches or exceeds them; similarly, you only benefit from a high refresh rate screen if you have a CPU and graphics card capable of high frame rates. Plan your build accordingly to get the full benefit from your hardware.

Response times must be fast enough to keep up with the refresh rate. On a 240Hz screen, for example, a new frame is sent to the screen every 4.17 milliseconds (1000/240 = 4.17).

The glitch involves both your graphics card and monitor. The GPU draws a varying number of frames per second, but the monitor refreshes its screen at a fixed rate. If the GPU is midway through overwriting the previous frame in the frame buffer when the monitor reads the frame buffer to refresh the screen, the monitor will display the mismatched image as-is. The top of the image might be a new frame, but the bottom section will still show the previous frame, creating the “tear”.

VSync (vertical sync) provides one solution to this issue. This in-game feature reduces the speed at which frames are drawn in order to match your monitor"s refresh rate. However, VSync can cause stuttering when the frame rate drops below that cap. (For example, the GPU may suddenly drop to 30fps when it can"t deliver 60fps). The increased load on the GPU can also result in input lag.

G-Sync monitors use NVIDIA"s proprietary G-Sync scaler chip to match monitor refresh rates to GPU output, as well as predict GPU output based on recent performance. It also helps prevent stutter and input lag, which can result from duplicate frames being drawn as the first one waits to be displayed.

AMD Radeon FreeSync monitors operate along similar lines, matching the display to GPU output to avoid screen tearing and stutters. Rather than using a proprietary chip, they"re built on open Adaptive Sync protocols, which have been built into DisplayPort 1.2a and all later DisplayPort revisions. Though FreeSync monitors are often cheaper, the trade-off is that they aren"t subject to standard testing before release, and vary widely in quality.

Variable Refresh Rate (VRR) is a general term for technologies that sync up your monitor and GPU. Adaptive Sync is an open protocol included in DisplayPort 1.2a and later revisions. Recent Intel, AMD, and NVIDIA graphics technologies can all work with Adaptive Sync monitors.

Both LCDs and OLEDs "sample and hold", displaying moving objects as a series of static images that are rapidly refreshed. Each sample remains onscreen until it"s replaced with the next refresh. This "persistence" causes motion blur, as the human eye expects to track objects smoothly rather than see them jump to a new position. Even at high refresh rates, which update the image more often, the underlying sample-and-hold technology causes motion blur.

Motion blur reduction features use backlight strobing to shorten the time that frame samples are displayed onscreen. The screen turns black after every sample before displaying the next, reducing the time that a static image is held onscreen.

This mimics the operation of older CRT monitors, which worked differently than current LCD technology. CRT screens were illuminated by phosphors that rapidly decayed, providing brief impulses of illumination. This meant that the screen was actually dark for most of the refresh cycle. These quick impulses actually created a smoother impression of motion than sample-and-hold, and motion blur reduction features work to replicate this effect.

Because the backlight is being rapidly turned off and on, these features also lessen the brightness of the display. If you"re planning to use motion blur reduction backlight strobing, ensure that the screen you"re buying has high peak brightness.

These backlights should only be enabled for gaming and fast-moving content, as they will deliberately cause the backlight to flicker, which may be annoying during day-to-day tasks. They also can typically only be used at a fixed refresh rate (like 120Hz), and won"t work at the same time as VRR.

CRTs used three bulky electron guns to send a beam to excite red, green, and blue phosphors on the screen. These phosphors decayed within a few milliseconds, meaning the screen was illuminated by brief impulses on each refresh. This created a smooth illusion of motion, but also visible flickering.

Liquid Crystal Display (LCD)In TFT LCDs (thin-film-transistor liquid crystal displays), a backlight shines light through a layer of liquid crystals that can twist, turn, or block it. The liquid crystals do not emit light themselves, which is a key difference between LCDs and OLEDs.

Older LCDs used Cold-Cathode Fluorescent Lamps (CCFLs) as backlights. These large, energy-inefficient tubes were incapable of controlling the brightness of smaller zones of the screen, and were eventually phased out in favor of smaller, energy-efficient light-emitting diodes (LEDs).

LCD panels are available in a range of technologies and can vary widely in color reproduction, response time, and input lag, especially among high-end options. However, the following generalizations about panels usually hold true:

Oldest and most affordable LCD panel type. High refresh rates and response times for high-speed gaming such as first-person shooters or fighting games.

Widest viewing angles. Most stable image quality. Deeper blacks and better contrast ratios than TN panels. Most are 6-bit+2, but 8-bit and 8+2 panels exist. Often highly rated premium panels.

Organic Light-Emitting Diode (OLED)OLED screens are emissive, meaning they create their own light, rather than transmissive screens that require a separate light source (like LCDs). Here, the application of electric current causes a layer of organic molecules to light up on the front of the screen.

Backlights may be imperfectly blocked by the liquid crystals in an LCD, causing black areas of an image to appear gray. Because OLEDs have no backlight, they can achieve “true black” by simply turning off a pixel (or at least 0.0005 nits, the lowest measurable brightness).

OLEDs therefore boast very high contrast ratios and vibrant color. The elimination of the backlight also makes them slimmer than LCDs. Much as LCDs were a thinner, more energy-efficient evolution of CRTs, OLEDs may prove a thinner evolution of LCDs. (They can also be more energy-efficient when displaying dark content, like movies, but less energy-efficient with white screens, such as word processing programs).

You"ll find a multitude of ports behind or beneath your monitor. Display interfaces connect your screen to graphics output from your PC, while USB and Thunderbolt™ ports provide data and power to external devices.

Single-Link DVI (Digital Visual Interface): The oldest display interface found on many modern monitors, this 24-pin digital connection dates back to 1999. It transmits only video and can connect to VGA or HDMI with an adapter. It supports resolutions up to 1920 × 1200.

Dual-Link DVI: This revision doubles the bandwidth of single-link DVI. It displays up to 2560 × 1600 resolution and supports refresh rates up to 144Hz (at 1080p).

DisplayPort: High-bandwidth ports that transmit video and audio. All DisplayPort cables work with all DisplayPort versions up to 2.0, which requires active cables (cables that include an electronic circuit) for full bandwidth. Revisions 1.2 and later allow you to link multiple monitors together via “daisy chaining” (though this also requires compatible monitors).

USB: These common ports transfer both data and power. Many monitors let you connect keyboards and mice to them to free up USB ports on your PC. USB Type-C ports feature a reversible design and can double as DisplayPorts.

Thunderbolt™ 3 Technology: All-purpose port that uses USB-C connectors, supports DisplayPort 1.2, transmits data at up to 40GBit/s using the Thunderbolt™ protocol, and supplies power.

Input: 3.5mm jack for connecting an audio cable from your computer, allowing you to play sound over the monitor"s internal speakers. Note that HDMI and DisplayPort cables also transmit audio, and are a simpler solution for many users.

Figuring out what to look for in a gaming monitor depends heavily on the choices you"ve made about the rest of your computer. Modern monitors can generally help you avoid the dropped frames, input lag, and visual artifacts common in older technologies, but the value of increased resolution, color depth, and motion smoothing features will vary from player to player. It"s down to you to separate the must-haves from the nice-to-haves.

A computer monitor gives a desktop system the window to show its configuration and features. You might have a high clock speed, a fast processor or great graphics, all you need is the right screen to flaunt all the cool features. Target offers you a wide range of options for different sizes and features that meet your requirements and style. Are you confused about choosing a monitor? We are here to help you. If you are wondering about size, then always go for the biggest one depending on your space. There are different types of screens such as ultrawide, curved or flat to help you narrow down your choice. Find monitors with different resolutions, HD or Full HD is the basic one. If you are looking for crisp and detailed quality then there are QHD and 4K options. Keep in mind about the pixel density, it decreases as the size of the computer monitor increases. For gamers, it’s ideal to choose a screen with a high refresh rate and a low response, while color accuracy should be a top priority for professionals. Then there are other features for accessibility such as HDMI and USB-C ports. From gaming monitors to a high-end professional one, we have computer monitors of top brands such as Dell, Samsung, ASUS, Sony and many more. Browse through and find your perfect computer screen.