How to Find Best monitors for Gaming 2022

How to Find Best monitors for Gaming 2022?

The monitor is the window to the soul of the PC. Without the proper display, everything you do on your system will appear mediocre, whether you are gaming, viewing or editing photos and videos, or just reading text on your favorite websites.

Professional users have special needs. If you are a photographer, proofreader, web designer, special effects artist, game designer, or someone who needs precise color control, this section is for you. This is what you need to know:

Vendor-certified color-accurate monitors cost more, but they’re worth it. If you want a monitor that is accurate out of the box, this is your best option. It is especially important for monitors without calibration capabilities. Professional monitors should come ready to work with no adjustments required.

A DeltaE (dE) value of 2 or less is a good sign. A dE less than 3 is generally considered invisible to the human eye. You want calibration options. There are two ways to achieve this: the on-screen display (OSD) and the software.

Calibration options should include options for different color gamuts, color temperatures, and gamma curves. At a minimum, there should be sRGB and Adobe RGB standards, color temperatures ranging from 5,000 to 7,500K, and gamma preset from 1.8 to 2.4. Monitors used for film or television production must also support the BT.1886 gamma standard. Flicker-free is very useful if you spend eight hours or more in front of a computer screen.

How much should I spend?

If you are new to gaming, some of the features that enhance your gaming experience may also lower those numbers on your bank account. Yes, it may have the best features, but these will come at a cost. Right now the latest high-end gaming monitors can sell for over $ 2,000, I know, it’s amazing. That said, it’s still quite possible to get a great-quality monitor for a third of that price.

It all depends on what you want and what your budget is. If you are more focused on FPS than on a beautiful screen, then your priorities may differ from someone who just wants their games to look beautiful. It also depends on the budget of the rest of your system;

Best Budget Gaming Monitor: If you are getting a limited budget ($ 300- $ 500 total) – you probably shouldn’t spend more than $ 200 or less than $ 100. We have two guides on the best gaming monitors under $ 250 and game monitors under $ 100.Best Gaming Monitor Under $100 2022.

If you get a mid-range build (between $ 600- $ 800 total): You shouldn’t spend less than $ 200 and no more than $ 400. You can read our guide to the best gaming monitor under $ 300 here. Best Gaming Monitors Under $300 2022
If you are getting a high-end build (from $ 1000 onwards): You can spend all you want, but you want to start around $ 300-400.

Determination
By reading this guide, we hope you’ve gotten a little closer to knowing what to look for in a gaming monitor. Although it may not be a central component of your system, it is the part that you will be looking at the most. Whether what you are watching is competitive gaming or just pushing your games to look their best, choosing the perfect monitor is essential. And these are the factors to consider when buying your gaming monitor.

Considerable features are the most important

Whether you are new to the world of video games or playing at an expert level, you will be faced with navigating the hundreds of options available. But what features are the most important? Finding this out before browsing all the different makes and models will help you save time and money.

Here are the most important things to consider when looking for a gaming monitor that meets your needs:

  • Screen size and resolution
  • Update frequency
  • Response time
  • Panel types
  • FreeSync and G-Sync
  • Colour
  • Build quality
  • Ports

Key features for best resolution and color detail

If you want image clarity and color accuracy above all else, this is your order of priority this route is possibly more expensive.

  • IPS panel technology

Better color reproduction and viewing angles provide a more immersive gaming experience! Key monitor features for better resolution and IPS color detail

  • HDR and wide color gamut

Expensive and kinda weird, but amazing where you can get it! Key monitor features for best resolution and detail in HDR color and wide color gamut

As you can see from the graph above, HDR (or high dynamic range) offers a higher contrast ratio than SDR, providing a greater range between the brightest white and the darkest black. For this reason, HDR offers a much more realistic and color-accurate final image, two factors that enhance the overall viewing experience of a particular panel.

  • 4K

4K will give you exceptional clarity and a ton of desk space. Key monitor features for best resolution and 4K color detail

  • Screen size and resolution
    Many people make the mistake of thinking that a bigger screen is always better. While this is mostly true of televisions,

Most people find that sizes ranging from 24 ”to 27” are best for gaming. You’ll typically be sitting around 3-4 feet away from the screen, and monitors in this size range will still allow you to see everything at once – crucial for competitive gaming. That said, larger monitors are becoming increasingly popular with today’s gaming community, providing higher levels of immersion and entertainment. Also, remember: you must be able to place it on your desk!

What are FreeSync and G-Sync?

G-Sync and Freesync are provided by Nvidia and AMD, who developed a method to try to eliminate the screen breakage problem with the least impact on performance. Each option has its own set of pros and cons, but we’ve found that Nvidia’s G-Sync tends to drive up monitor prices a bit more, as you need dedicated hardware to be present on the screen.

FreeSync and G-Sync are two (essentially) identical technologies, but there are some key differences.

  • FreeSync
    AMD’s FreeSync only supports AMD GPUs and FreeSync-compatible displays. However, FreeSync only requires compliance with the latest DisplayPort standards and does not require specialized hardware to function.
    G-Sync
    Nvidia’s G-Sync is only compatible with Nvidia GPUs and G-Sync-compatible displays. Unlike FreeSync, it requires dedicated hardware built into the display to function properly.

Both technologies seek to beat V-Sync, which is a hardware-intensive method of syncing your frame rate to your refresh rate to prevent screen tearing. This comes with the penalty of some input latency and pretty severe frame rate drops if you ever drop below your refresh rate.

Comparatively, -Sync technologies do not cause any input lag and keep your refresh rate in sync with your frame rate, unlike the reverse. This provides all the benefits of V-Sync without any of the drawbacks.

Also, remember that G-Sync and Freesync require your system to have Nvidia and AMD GPUs respectively to work.

What games have G-Sync and FreeSync?

Many people ask this. As it is a monitor and GPU technology, you don’t need to worry about game compatibility. All games are compatible with G-Sync or FreeSync.

  • Color ranges
    The more colors a gaming monitor can produce in real form, the more vibrant and realistic your game graphics will be. This comes down to the color gamut of your monitor, but what does this mean?

To keep things simple, a color gamut defines a specific range of colors that are identifiable by the human eye. As the gamut of colors that a gaming monitor can produce varies between brands, the gamut of colors helps to clarify their visible differences.

Gaming monitors are classified according to the percentage of possible colors in a color gamut. Understandably, this sounds confusing, but it means that a gaming monitor rated 100% NTSC (the gamut of colors that can be represented to the human eye) can display all colors within that particular color gamut. Similarly, a 50% NTSC gaming monitor can only render half the colors.

Therefore, when looking for a gaming monitor that can create accurate colors and provide you with the highest definition graphics possible, you will need to ensure that it has a high percentage of color gamut.

Color gamuts most commonly found on modern panels include sRGB, Adobe RGB, and DCI-P3. Each of them includes a range of colors that will determine which colors it supports and how suitable it is for certain tasks.

  • sRGB
    Derived from Rec.709, the sRGB gamut may be the smallest of the three, but it is also one of the most popular. Using the “standard red green blue” color spectrum has become the standard for many online applications. It is the default option used in most game creation and is more than capable of handling the display requirements of the average user.
  • Adobe RGB
    The Adobe RGB gamut has provided a color space that extends even further to cyan-green tones since its launch in 1998. This includes approximately 50% of what the CIELAB color space identifies as visible colors, offering a reasonable enhancement. in sRGB.
  • DCI-P3
    At the other end of the color, spectrum is the DCI-P3, which is gaining in popularity, despite being originally designed for ultra HD and HDR. Its prevalence in televisions has been slow to translate into game development, probably because RGB remains the standard and has wider compatibility. Focusing more on red and yellow colors, DCI-P3 has a color gamut that is about 25% wider than sRGB, so the vibrant screen will create a more immersive gaming experience.
  • HDR (high dynamic range)
    You will see the term “HDR” many times when looking for a gaming monitor, and this stands for High Dynamic Range. This technology offers a wider color gamut beyond the usual sRGB standard and drives a higher contrast ratio between black and white levels.

This means that it has the power to represent color with great precision and generally makes everything appear much more realistic. This makes it a great feature to consider if you want to achieve super immersive gameplay and lose yourself in the experience.

  • Luminance (maximum/minimum brightness)
    The luminance of your gaming monitor is the level of brightness to which you can adjust the screen. It works the same as adjusting the brightness of ceiling light with a dimmer switch, allowing you to get a dimmer or brighter glow from the backlight when needed.

Again, this is great for helping reduce eyestrain and for adapting your monitor to the ambient lighting in the room, so it’s a great feature to consider.

Brightness is also important because to use HDR and take your graphics to the next level, your monitor must meet the minimum requirements. Anything that does not meet the minimum brightness level cannot be classified as HDR.

For example, HDR400 will require 400 nits of brightness to meet this standard, while HDR1000 requires a larger 1000 nits of brightness and will be of higher quality overall.

If your gaming monitor doesn’t give you the option to manually adjust the luminance, you can still achieve this by adjusting the brightness through your software. However, this comes with the added risk of affecting the monitor’s color gamut, so you may not get the vibrant graphics you want.

  • Panel uniformity
    You will also need to observe the uniformity of the chosen gaming monitor panel. A well-consistent gaming monitor will give you the levels of precision you need to see every little detail in your game with consistent colors and brightness across the entire screen.

A gaming monitor with poor panel uniformity can affect the overall viewing experience of your monitor, and in some rare cases, poor uniformity can even be seen with the naked eye. You are more likely to notice darker spots and uneven colors during play.

There’s a pretty drastic drop in performance that takes away the immersion value, preventing you from really getting the full gaming experience.

  • Build quality
    As with any gaming rig, you’ll want to make sure that the gaming monitor you choose has the best build quality possible.

Which is the best?

There is no definitive answer to this question. If you are working on a tight budget, FreeSync is your best option. Some things will be sacrificed, like being able to enjoy 4K games, but you will still be offered fantastic, smooth, and sharp graphics without having to spend a fortune to get them.

In the past, if you wanted the most powerful performance of everything, you needed an NVIDIA card. And, with that, you’d need a G-Sync monitor to go along with it. However, this comes at a higher cost, so it is not the best budget option.

However, AMD’s latest release of its 6000 series GPUs represents a serious challenge for NVIDIA for the first place title and therefore should not be discounted. Ultimately, they both perform extremely well at 1080p and 1440p to produce smooth, crisp graphics.

Why is build quality important in a monitor?

The main reason it’s so important to look at the build quality of your gaming monitor is simply that you want to make sure you are getting value for money.

Depending on the make, model, and specs you’ve chosen, a gaming monitor can be an expensive investment, and having to spend even more money to repair or replace it is a less than ideal situation.

The build quality of your gaming monitor will ultimately come down to the materials used in its construction. Flimsy plastic can cause ports to break, not only preventing you from establishing a secure connection, but again, it will cost you money to replace.

Therefore, the overall frame of your gaming monitor must be made of something incredibly strong, like ABS plastic. This will help ensure that your gaming monitor continues to give you the best possible performance for years to come.

The positioning of your gaming monitor is another important factor when looking at the build quality. While the materials used to frame your gaming monitor should be strong enough to hold the screen firmly in place, it is the stand that does most of the work.

The stand keeps the entire screen and frame elevated and prevents it from tipping over. It also allows you to tilt, tilt, swivel, and adjust the height of your monitor to a more comfortable position.

All of this must be done without it coming loose from the bracket, so again, the material used in the construction must be very durable. However, to ensure that the stand can cope with all the adjustments you will make to the monitor during its useful life, the accessories and accessories must also be very durable.

Stainless steel or aluminum are the best materials for this as they are really strong. They are also resistant to corrosion and rust, increasing their strength and ensuring that you can rely on them regardless of the surrounding environment.

The better the quality of the support, the more resistant it will be, which is an important aspect for players to consider. An unstable monitor is a recipe for disaster if your screen starts shaking during a furious gaming session, so don’t underestimate the need for a sturdy stand.

  • Panel cladding
    You have a couple of options when it comes to the panel coating applied to your gaming monitor. These are “glossy” or “matte”, and each has its pros and cons, not just in build quality but performance as well.

Glossy panel liners are made of polymer or glass. They give you vibrant color reproduction but are much more susceptible to damage if dropped or accidentally thrown at them.

Material panel liners are made from softer plastic that has undergone an etching process. So while they don’t offer you the same color intensity as glossy panel siding, they are much more durable. They also offer much better light attenuation, which is great for reducing reflections.
Ports
One of the most overlooked, but most important things to think about when looking for a gaming monitor is the available ports it has. It is through these ports that you will connect the monitor to your PC and if you make a mistake it will take time and effort to find a replacement.

What resolution do I need to play?

The resolution you need for gaming will ultimately be determined by your PC GPU and the budget you are working with. Expect to pay more when you want to enjoy high-resolution games.

1080p is the most common resolution among gamers, but as new PC games and technology are released, 1440p and 4k are expected to be the de facto standard for the everyday gamer.

However, one thing to keep in mind is that going from 1080p to 1440p (or 4k) will have a significant impact on PC performance. This will have a particularly large impact on gaming performance, reducing the number of frames your PC can handle in any game.

All optimal gaming monitor sizes for each of the popular resolutions listed below.

  • 1080p and 24-inch / 27-inch – Most common, it should work fine with most settings.
  • 1440p and 27-inch – Less common, you’ll need mid-to-high-end hardware to get the most out of it.
  • 4K and 27+ inches – the least common, you’ll need the best hardware to get the most out of it.
  • 8K and 32+ inches: Emerging technology will need the best hardware, and there are currently no native 8K games
  • available.Aspect ratios
  • Resolution is certainly important when looking for the perfect gaming monitor for your setup, but one thing that is often overlooked is the aspect ratio.
  • Monitor differences in an aspect ratio

Widescreen (16: 9) or Ultra Wide (21: 9)?

The resolution of a monitor is one of the characteristics that will make your games look great. With a higher resolution, you get more pixels on the screen, and with more pixels, you get better clarity and image quality. Although this won’t give you a competitive edge, it is sure to make your games look great and add to the overall immersion.

The size of the monitor will also affect the resolution you want to run. Most gamers play at 1080p resolution which looks great on 24 ”monitors. However, if you intend to increase the resolution to 1440p or even 4k, you will want a larger screen size.

We also discussed this in the article on the best monitor size, but the short version is: use a single 16: 9 monitor for gaming. Ultra-wide and multi-monitor settings may work, but their compatibility with games is limited and in some cases, it can be completely worse, especially in multiplayer titles (where they will not allow you to use a wider field of view since you can consider a competitive advantage).

Before you go out and buy a huge screen, make sure you have the video hardware to support these sizes, as the higher number of pixels will create a higher workload for your GPU. If it’s the high FPS you’re after, you’ll need a high-end system to support the upscaling.

Curved Vs Flat Gaming Monitors

You will also have to decide if a curved monitor or a flat monitor is the best option for your gaming setup. Each of them has its advantages and disadvantages, but the choice you make will depend on your style of play and ultimately your personal preferences.

Let’s take a look at each of the

monitor’s Features more

  • Flat monitors

Available in 21: 9 and 16: 9 sizes (to name just two), flatbed monitors have been around for years and are the type of monitor you probably grew up playing with. They tend to be a bit cheaper than their curved counterparts, and despite being priced lower, they still offer you a fantastic gaming experience.

An ultra-wide monitor will also offer you a larger field of view, which is especially advantageous when you are playing multiplayer games. (if the game developer has allowed you to use it)

In general, flat-panel monitors tend to offer better gaming credentials with better response times, refresh rates, and higher color accuracy. They are also a great alternative to the multi-display setup and will save you a lot of desk space.

However, flatbed monitors are not without their downsides. The first one is that not all games support a 21: 9 aspect ratio. This means that the edges of the screen can be left blank and unused, and this is what is known as “black bars” in the universe of games. Although we predict that this is unlikely to remain a problem for long.

  • Curved monitors

Curved monitors are relatively new to the gaming market. Monitor curvature is measured using “R” and, unlike more conventional measurement systems, the smaller the number, the larger the curve.

For example, a 1800r curved monitor will have a greater curvature than a 4000r one. There are three common curvature measurements to choose from when looking at curved monitors; 1800r, 3000r, and 4000r.

  • Monitor curvatures R

So we know that the smaller the “r” number, the more curvature the monitor has. But why is it good for games? Think about how we see the world around us with the naked eye. For us, the length, height, and width are three-dimensional, and the curved monitors offer us a greater field of vision. This gives us a more immersive gaming experience.

This also means that the curved monitors put less strain on your eyes while gaming. This is because the image is kept adjacent to the eye, so there is not as much need to adjust to the images as there is with a flat panel monitor.

However, not everything is positive. Yes, the technology used in curved panels is evolving with each new iteration, reducing the performance gap between flat and curved alternatives. That said, on average, curved monitors still fall short of the smaller flat panel panels when it comes to gaming performance, even more so now that the latest 360Hz monitors are starting to roll out.

60Hz: the “baseline”. The minimum is required for any type of scenario; not the smoothest experience when playing competitive sports titles.

75Hz – Slightly better than baseline, but only a marginal difference.

120Hz – Big difference in playback and quality, but somewhat superseded by the more popular 144Hz displays. This is more popular on ultrawide monitors than 16: 9 panels.

144Hz – Not that different from 120Hz, but it is the most popular standard. Probably your best bet to buy a high refresh rate display today. This is the basis for competitive games, especially if you play titles like CS: GO and COD.

240Hz: Despite the higher number, it is not as significant as the jump from 60 to 144. It is also a bit unfeasible for most of the hardware currently on the market, more adapted to the best competitive gaming scenarios.

360Hz – Recently released on modern monitors, 360Hz is the new top-of-the-line specification for gaming displays. It will provide new levels of fluid gameplay, giving elite competitive players an edge over their competition.
Response time

Another term you will come across when looking for a gaming monitor is response time. This is something that is often confused with refresh rates, but they are two very different things. Below we will discuss response times in more detail and help eliminate the jargon that surrounds them.

What is response time and how does it affect the game?

Simply put, a monitor’s response time is how quickly the screen can shift pixels between shades of gray, using the GTG (gray to gray) transition.

But how does response time affect games? When you play any game, every millisecond counts, so you need to make sure your monitor can display everything quickly and clearly. If the response time of a monitor is too slow, images will be delayed and this could cause annoying visual artifacts such as ghosting.

Response time measurements can be a bit difficult to understand as, unlike most game specs, you should be looking for a low number when it comes to response time. The higher the number, the slower the response time.

From a gaming point of view, we always say to seek the shortest possible response time. However, it’s worth mentioning that manufacturer-rated response times should be taken with a pinch of salt. Just because a monitor says it has a response time of 1 ms does not mean that it will be the same as another monitor with a response time of 1 ms. Confusing, right?

Manufacturers will take the best-case scenario when marketing a monitor, labeling it as 1ms when, in reality, it is only capable of 1ms in custom scenarios – a particular gray-to-gray transition, for example.

It’s hard to tell, without testing, which 1ms monitors are the best. That said, the human eye will have a hard time detecting any visual shock when it is below 5ms, so look for the lowest possible when purchasing a gaming panel. Typically, you will find that response time does not have a huge impact on the price of a panel.

Overdrive

Some gaming monitors give you “response time overdrive”. This gives you the ability to adjust the speed of the response time and decrease the ghosting left by fast-moving images. This is great if you like to play fast-paced game titles.

Accessing your monitor’s overdrive options is easy. You simply need to open the on-screen display menu and look for the overdrive option. Depending on the brand of your monitor, it will generally appear under one of these names:

  • TraceFree
  • Rampage Response
  • Overdrive
  • overdose
  • Response time

Once you have selected the appropriate option, the overdrive levels will be listed in a “Slow, Medium, Fast” list or allow you to adjust the overdrive from 0 to 100 in increments.

Although this is a great feature, you will need to remember to keep your monitor’s refresh rate in mind when using response time overdrive. Otherwise, it may cause excess pixels or a reverse ghost image.

Overreach

Overshoot is when your monitor overcompensates for pixel transition time (using response boost technology like the one outlined above) and starts to change color before the frame hits. That is, instead of the ghostly trail being BEHIND the image, it is IN FRONT of it.

  • Overdrive pixel saturation monitoring

Motion blur reduction: Many gaming monitors, especially those with a refresh rate of 120Hz or higher, also offer motion blur reduction. The purpose of this is to keep moving images looking clean and sharp, rather than making them appear like motion blur that is only decipherable once stopped.

This is a great feature to look for if you play fast-paced, high-motion games and want everything to look as clean as possible. However, it is worth noting that this is not a feature that is generally available on gaming monitors with less than 120Hz.

But how does motion blur reduction work? Simply put, it uses a strobe backlight that syncs with the monitor’s refresh rate. This helps circumvent most of the response limitations that come from the LCD panel.

Light-emitted strobes are faster than the pixel transition time of your monitor’s response time, resulting in clearer images of fast-moving objects.

It is also worth mentioning that the quality of the reduction of motion blur can vary between brands, some of which give you the clearest motion pictures you could dream of and others sacrifice the vibrancy of color for clear images.

  • ELMB (extremely low motion blur)
    Some computer monitors include ELMB (Extreme Low Motion Blur) technology, and this is designed to dramatically reduce any blur left by fast-moving objects while ensuring that side effects are minimal. This means zero ghosts, enhancing your immersive gaming experience.

ELMB was created by Asus to specifically reduce eye-tracking motion blur. As with standard motion blur reduction, it works by using backlight strobe technology to work at a rate faster than your monitor’s response time.
What type of panel do I need?
The million-dollar question! There are a few different panels to choose from when shopping for a gaming monitor, but determining which one is best for your gaming style can be confusing.

So let’s simplify things a bit. For starters, you should know that there are a few different types of display technologies, and each has its pros and cons. However, the three most commonly used gaming monitors are IPS, TN, and VA.

  • IPS
    Often considered the top of the three, and with a price tag to match, IPS stands for in-plane switching. The reason for their superiority is that they offer better viewing angles and color accuracy than TN and VA panels. This not only makes them a great choice for high-definition games but also for anyone designing or editing games.

IPS panels generally have a response of less than 5ms, which is adequate for most gaming needs. However, TN panels tend to have an even faster response time, so if you’re looking for the smoothest possible while gaming, you’ll have to decide if speed or detail is more important to you. Tennessee
If you are looking for something a little cheaper, a gaming monitor with a TN “Twisted Nematic” panel might be the best option. These also tend to be the least expensive of the three.

Sure, the viewing angles and color accuracy aren’t as good as what an IPS panel offers. But they have a super-fast response time, making them ideal for fast-paced, competitive, multiplayer games.

  • Virginia
    Finally, you have the option of a VA panel. This means vertical alignment, and the standout feature of these is that they offer a better contrast ratio and provide deeper black levels than IPS panels. In terms of color accuracy and viewing angles, VA panels sit in the middle of TN and IPS, providing more accurate colors (and viewing angles) than TN but falling short of IPS in the same departments.

However, a notable downside to VA panels is that they have a slow response rate and as such often have problems with tracking and ghosting. This could be a particularly serious problem when playing with a lot of fast-moving objects, so it’s something to keep in mind when making a decision.

The contrast on your gaming monitor is the ratio of the brightest levels of white to the darkest levels of black that can be produced. If you have a higher contrast ratio this generally means that you will be able to achieve deeper blacks and as such this results in better image quality.

This is especially important for the game, as you want to be able to enjoy the graphics in the highest detail and quality possible. Contrast ratios range from 1000: 1 to 3000: 1, and as with most gaming terminology, the higher the number, the higher the contrast ratio.

You will also need to think about your gaming settings and ambient light when looking at the contrast ratio, as having a gaming monitor with a high contrast ratio is helpful when you are gaming in a dark room. If you play in a well-lit room with a gaming monitor with a 1000: 1 contrast ratio, the contrast will become less visible due to ambient light shining on the screen.

  • No sparkles
    If you are a competitive gamer who plays at the highest level, or you simply enjoy playing games for more than 8 hours straight, it is a good idea to consider investing in a gaming monitor with flicker-free technology. This is usually the standard on most gaming monitors these days, but it’s something worth keeping in mind.

However, why is it important not to blink? To put it in the simplest possible terms, it reduces the flickering light produced by the backlight of your monitor. In turn, this allows you to play for longer without your eyes feeling the fatigue effects that can occur when looking at a flickering screen.

  • Blue light
    The effect of the amount of blue light produced is one of the most debated things in the world of gaming monitors. Some people think it is important to buy a monitor with reduced blue light and others do not. However, there is an argument for each side.

Let’s start by looking at why a blue-reduced gaming monitor is a good thing. Viewing a monitor equipped with a low blue light filter is recommended for people who like to play games for long periods. Not only does it reduce short-term stress on the eyes, but it also reduces the risk of future problems.

Too much exposure to blue light can also interfere with sleeping patterns, so once you’ve turned off the monitor, you’ll be less likely to have trouble falling asleep if you’ve been playing on a gaming monitor with reduced light levels. blue.

Now let’s see why a low blue light level is not necessary. While it is true that a low blue light level will reduce eyestrain, accurately calibrating your monitor will do the same. Reducing the blue light produced by your monitor will also affect all other colors, causing them to darken and in turn produce less realistic color accuracy. This can be especially distracting when playing games.

It will come down to personal preferences and your theories when looking at reduced levels of blue light, but the information on both sides of the argument is worth considering before making a decision. After all, your game settings are personal to you and it is important that you feel as comfortable as possible to immerse yourself in your game.

Well, if you want a gaming monitor that produces high-quality images with true color accuracy, then there’s no question that an LED monitor is the best option. You’ll also want to go for one with a full-array backlight, which we’ll discuss in more detail in a moment.

  • However, the main reason an LED monitor is better for gaming is that it doesn’t shine at a constant level of brightness. This means that you can enjoy the nuances and tones of your game, with bright and dark lights that shine simultaneously.
    Backlight technology
    Both LED and LCD screens use liquid crystals to produce high-definition images. The difference between them is the backlight technology used. Let’s take a look at these differences below.

LCD monitor LED backlight technology

  • LCD backlight
    Standard LCD monitors use CCFL (Cold Cathode Fluorescent Lamps). These are laid out in an even layer directly behind the screen and by doing this they provide a constant level of illumination across the entire screen.

This means that all parts of the image displayed on the screen will be presented at a similar level of brightness.

  • LED backlight
    While LCD monitors use CCFL, LED monitors to use light-emitting diodes (very small lights) for backlighting. They also offer two different backlighting methods; full range backlighting and edge backlighting.

Edge-Lit vs. Full-Array Monitor

  • Edge LED backlight
    With edge backlighting, the LEDs are positioned around the edges of the screen rather than directly behind it. This can be done in the following ways:
  • Placing the LEDs along the bottom of the screen
  • Placing the LEDs along the top and bottom of the screen
  • Positioning the LEDs along the left and right sides of the screen
  • Placing the LEDs along each edge of the screen
  • You will find this type of backlighting on super slim gaming monitors, and this is because it takes up less space.

However, it is important to mention that the edge backlight does not offer any local dimming functionality, so the image quality is not as good as the full-array backlight.

  • Full array LED backlight
    First of all, we will look at the full array backlight. In this method, the LEDs are placed in the same way as the LCD backlight, in an even layer across the entire screen. However, the difference is that the LEDs are arranged in zones. This allows each lighting zone to be dimmed (known as local dimming)

This is an important feature in a gaming monitor, as it can improve image quality and allow different depths and tones to be accurately represented. It does this by allowing dark pixels and light pixels to shine at the same time, rather than relying on one brightness level for everything.

  • FreeSync and G-Sync

To use FreeSync and G-Sync technologies, you will need DisplayPort ports on both your GPU and monitor, as well as a DisplayPort cable to connect the two.

Although these words may seem strange at first, this is where it all starts to come together. Depending on your FPS and refresh rate, you can sometimes run into situations where they don’t sync at all. This will commonly result in the form of screen breakage. This is one of the most annoying graphics issues to deal with and it will ruin any gaming experience.

What type of panel do I need? TN vs. VA vs. IPS.

There are three main LCD technologies used in today’s PC monitors: twisted nematic (TN), vertical alignment (VA), and in-plane switching (IPS). Each has several variations that offer different benefits. We won’t go into the complexities of how these different panels work. Instead, the chart below explains how each impacts image quality and the best use cases for each panel.

TN VA IPS
Faster performance: low response times, higher refresh rates, minimal motion blur; Low input lag Typically the longest response times; Possible higher refresh rates Slower response times than TN, faster response times than VA; Game-quality refresh rates are infrequent.

  • Display Worse viewing angles, worse color Viewing angles are usually better than TN, worse than IPS; Nice color;
  • Better contrast; Better image depth Better viewing angles; Better color
  • Pricing Cheaper models may have comparable performance to more expensive TN
  • Best Use Gaming General Use Professional
  • While that chart should be enough to make a quick decision on your dashboard-type, if you want to dig deeper, consider the following:
  • Contrast is the most important factor in image quality and reliability (5,000: 1 is better than 1,000: 1). As such, we consider VA panels to offer the best image quality among VA, IPS, and TN.

Many TN displays can hold up in the color department with more expensive IPS and VA displays. While the general perception is that TN offers less accurate color and contrast than VA and IPS panels, there is a chance that you won’t notice the difference. Many gaming monitors use TN panels for their speed. We found that color quality differs more based on price than panel technology.

What Features Matter? For Gaming Monitors

There are many confusing options and even more confusing marketing terms to examine when shopping for a new gaming monitor. Let’s take a look at the features that benefit gamers. Mention that some factors depend on the skill level of the player.

For our top gaming monitor suggestions, study out our Best Gaming Monitors. And for 4K stunners, check out our Best 4K Gaming Monitors.

Competitive gamers should prioritize speed, which requires high refresh rates (144Hz or higher), as well as the lowest possible response time and input lag.

This is likely to limit you to 25 or 27 inches, possibly with a lower pixel density and no extended color or HDR.

But maybe you are a casual gamer who won’t notice the difference between 60fps and 144fps. You can settle for 75Hz or even 60Hz alongside FreeSync or G-Sync (more on that below) and prioritize things like high image quality, pixel density, and 30 inches or more. If your budget allows, this could also allow for a more saturated color or even HDR.

Should you buy a G-Sync or FreeSync monitor?

Gaming monitors typically have Nvidia G-Sync (for PCs with Nvidia graphics cards) and/or AMD FreeSync (to run with PCs using AMD graphics cards). Both of these features reduce screen tearing and stuttering and increase the price; although, G-Sync monitors usually cost more than FreeSync.

Another thing to state is that G-Sync is based on DisplayPort, while FreeSync works with both HDMI and DisplayPort.if your budget only has room for a low to medium-speed graphics card, you will surely want a monitor with G-Sync or FreeSync that runs at a low minimum refresh rate.

What is the lowest refresh rate supported by Adaptive-Sync?

G-Sync monitors work from a 30Hz refresh rate to the monitor’s maximum, but not all FreeSync do. FreeSync monitors generally support Adaptive-Sync up to a monitor’s maximum refresh rate, but this is the lower limit that you should be aware of. We have studied displays that go as low as 55 Hz. This can be problematic if your graphics card cannot keep frame rates above that level.

Low Frame Rate Compensation (LFC), which G-Sync activates below 30 Hz, is a viable solution, but will only work if the maximum refresh rate is at least 2.5 times the minimum (example: if the frame rate is maximum refresh is 100Hz, minimum must be 40Hz for LFC to help).

Many FreeSync monitors can run G-Sync. Some of these have been tested and certified by Nvidia as G-Sync compatible. Many non-certified monitors can also run G-Sync, but performance is not guaranteed. See our article on running G-Sync on a FreeSync monitor for more information.

If you plan to do a lot of competitive games with HDR content, consider getting a G-Sync Ultimate or FreeSync Premium Pro display. Both features are certified for lower input latency and include additional benefits for HDR titles.

Do I need an overdrive or motion blur reduction?

Overdrive reduction and motion blur are available on many gaming monitors (under various brand names). To understand its value, you must first understand ghost images. Ghosting is that blurry trail that a moving object sometimes creates on the screen. This is due to uneven pixel transition, or when the pixel on a monitor takes longer to change from color A to color B than it does from color B to color A.

Overdrive reduces ghosting by speeding up the rate at which pixels go through higher voltages. When done correctly, the pixel reaches that level quickly, then switches to the next frame before the voltage gets too high.

Meanwhile, Motion Blur Reduction, also known as Ultra Low Motion Blur (ULMB in the photo below), maintains motion resolution when on-screen action gets more intense.Overdrive can create reverse ghosting artifacts,

Generally, you cannot use motion blur reduction and G-Sync / FreeSync at the same time. There are rare exceptions, like the Asus ROG Strix XG27AQ. Players must opt ​​for Adaptive-Sync each time. A fast graphics card running at 60 fps and above with G-Sync or FreeSync will virtually eliminate any need for motion blur reduction.

What’s a good deal on gaming monitors?

Gaming monitors often go on sale, but it is hard to tell if you’re getting a good deal. The first way to find out is to check the reviews to make sure it’s the right monitor for you.

  • 144 Hz at 1080p (27 inches)
  • 60 Hz at 4K

Both gaming and professional monitors are more than qualified to serve as general-purpose displays. But if you want to avoid spending extra money on a specialized monitor, you need something that works well for all types of computing, entertainment, and productivity. Here’s how to decide what’s best for you:

Contrast is king, which is why VA panels are too. We consider contrast to be the first measure of image quality, followed by color saturation, accuracy, and resolution. When a screen has a large dynamic range, the image is more realistic and similar to 3D. VA panels typically offer 3-5 times the contrast of IPS or TN displays. If you place a VA and IPS monitor side by side with matching brightness levels and calibration standards, the VA display will easily win in terms of image quality.

Consider not blinking if you are going to look at the screen for more than 8 hours. They won’t flicker at any brightness level, so even those particularly sensitive to flicker will be delighted. Low blue light is not a point of purchase. Most operating systems, including Windows 10, have modes to reduce blue light, based on the theory that blue light interferes with sleep. But although many monitors offer this feature, it is not necessary.

Low blue light can make a computer image less stressful on the eyes, but so can accurate calibration. And since reducing the brightness of blue also affects all other colors, you may experience an unnatural look in graphics and photos. This is especially distracting in games and videos. You don’t need to prioritize low blue light, but it’s getting harder to find monitors without it.

What bit of depth do I need?

The louder the better, and the pros need at least 10 bits. An 8-bit panel is not sufficient for most professional graphics work. If possible, go for 12 bits. A deep color monitor won’t do you any good if your graphics card can’t output a 10-bit or 12-bit signal.

Yes, the monitor will fill in the additional information, but only by interpolation. As with pixel scaling, a display cannot add information that is not there in the first place; it can only approximate. Many consumer graphics cards are limited to 8-bit output.
Bottom line
No matter what PC you have, the choice of your monitor has a dramatic effect on everything you do. That makes buying a new monitor a worthwhile investment and one that can benefit you right away, whether you are playing or working, with the right selection. Just make sure you don’t spend money on a screen with too many features or without the specs you need to help your PC shine.

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