gaming lcd screen in stock

All desktops require an external monitor to function. Computer monitors, like PCs, come in all shapes and sizes. Finding the perfect PC monitor can help take your computer experience to the next level. Whether you are looking for a high resolution external monitor to make your home office more ergonomic or you want a premium option to make gaming more robust, Micro Center has the computer monitor you need to boost productivity and enjoyment when you are using your computer.

Gaming monitors are specialized displays designed to have the lowest response times possible to stay ahead of the competition. PC monitors for office use may have slower response times but are more affordable and capable of performing general use tasks to improve productivity, viewing angles, and more.

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

As a gamer, you still want your full HD computer screen to be height adjustable and high resolution, but you may want a few additional features to make gameplay more enjoyable and to make the most use out of your PC’s graphics card. For example, you want premium color accuracy, fast refresh rates, high contrast ratio, and the best image quality to ensure that you enjoy the gaming experience.

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

Additionally, gaming monitors have features that make them work better with your gaming PC. For example, the Nvidia G Sync or AMD FreeSync are used in some gaming monitors to provide a smoother refresh rate to make gameplay smoother and more enjoyable overall. Our selection of FreeSync and G Sync compatible monitors will help you maximize performance of your Nvidia or AMD graphics card.

Computer monitors are available from all the name brands such as Acer, Samsung, Dell, HP, and ASUS. Dell monitors are a popular choice among many offices and professionals because of their wide range of screen sizes and features. No matter if you are looking for a comfortable widescreen option for your home office or a gaming monitor with special features from Nvidia and AMD, Micro Center has the HD monitor you need!

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If you’re trading frequently, you know that monitors for trading are the ones that let your mind directly enter the screen, not just notice what’s ticking across it. They don’t distract you as you dive headfirst into the world of crypto, dividends, or corporate mergers. With West Coast stock trading hours opening at 6:30 a.m. and crypto being a 24-hour scramble for the best, there are a lot of environmental conditions to consider. So, what can bring you the best in terms of eye health, easy reading, and, of course, financial gain? We’ve delved into what’s available and found the best monitors for trading, no matter your purpose or needs.

To compile our list, we combined personal experience, peer input, respected critics, and user impressions. We also considered the environment of the modern work-from-home trader and what they needed. The reality is that there is a lot of diversity in these needs. For example, the stock trader is the most likely to complain of morning light due to the early nature of market openings. On the other hand, the day trader needs to assess information rapidly with the most readable and information-dense screen possible.

The screen is a decent 1080p with an anti-glare matte screen. While it only refreshes at 60Hz, from a hardware perspective it holds up and there are very few eye health complaints with this monitor.

For personal comfort, the screen has the ability to tilt upwards by 30 degrees and down by 5 degrees. It also offers a 90-degree rotation for people that prefer to trade in a vertical portrait mode. Furthermore, you can use it with one of our best computer monitor stands to make the whole experience more customizable than ever.

The thin edges are great if you want to set up a second monitor for your computer explicitly for trading. Swivel it into vertical mode and you’ve got a great secondary monitor with a screen that practically touches your first. Alternatively, keep it horizontal and throw your old monitor off to the side for a similar effect, it is all up to you.

The Dell P2419H works perfectly for those mornings when you want to jump straight out of bed and head straight to the trading desk. Open your blinds fully and harness the power of the rising sun without fear of glare and eye strain with the anti-glare screen.

In fact, this screen should work wonders for your eyes throughout a heavy day of trading, reading business reports, and keeping up with the news. Being TUV-certified, the screen has passed tests showing it to be flicker-free and a reducer of blue light, which affects sleep. While the blue light adjustment does seem to have bled over into the color quality a tad, the trade-off seems well worth it.

In addition to rotating into portrait mode, as the HP VH240a did above, the Dell also has access to the Dell Display Manager. This software allows you to subdivide your screen as you wish, as if it were two screens in one. This is perfect for the trader with low desk space or that wants to compare two charts side-by-side.

The AOC C24G1 is a powerful monitor made for late nights in the trenches of crypto forums, NFT debates, and r/SatoshiStreetBets memery. Plus, while waiting for the Musk tweet that will send DOGE to the moon again, it can double as a great gaming monitor to service your other addiction.

Whether you find yourself working or playing late into the night, or a little bit of both, you’ll find something to like about the AOC C24G1. The sharp contrasts, but soft colors of the monitor allow for easy reading and the monitor is a great gaming monitor in its own right. One of the few downsides is that you might experience a tad bit of “ghosting,” or image-trailing artifacts, when gaming. Overall, this rates as a way above-average pick for a standard price.

Why it made the cut:If you can afford it, this monitor is a great ultrawide with easy on-screen splitting for quick information access when it counts most.

The LG 34WN80C-B is an ultrawide that proves itself wonderfully in the world of work-at-home productivity. The software included creates a powerful office display that will make you want to work. Easy USB-C connectivity makes it one of the best monitors for MacBook Pro trading, with the extra screen space making it all that much more enticing.

LG’s On-Screen control options allow you to choose a grid for various apps and windows, divvying up your screen like new residential lots. Just drop everything into place and go. The whole thing gives a pseudo-multi-monitor feel without all of the extra desk space, installation, or neck movement required.

Speaking of neck movement, the monitor has a great overall height adjustment at 6.3 inches with a spring-loaded mechanism. Just lift or push down and release, the monitor won’t move or slowly sink as time progresses. If that doesn’t work for you, there is always the 100 x 100 millimeter VESA mounting mechanism that is compatible with most monitor arms. Like most of the best ultrawide monitors, the LG 34WN80C-B is a bit on the expensive side. Since it is mostly meant as a great work monitor for professionals, we can’t say that the price can be offset by a top-of-the-line gaming experience either. Still, the LG 34WN80C-B packs a powerful punch in the office, keeps your eyes on the charts, and supports you where it counts.

While the screen does come a bit small and it does lack VESA mounting and associated features, this monitor could easily fit as the budget option for just about any monitor listing it qualified for. People simply like it, and we all have to respect what it can do for the cost.

With all of the monitors out there today, it can be quite overwhelming to assess all of them. Overall quality remains a top priority, so a lot of the considerations you’ll see in our best monitors for home offices or even our best ultrawide gaming monitors guides will apply here. For the best monitors for trading, however, we wanted to push beyond the average factors.

The higher the resolution of the screen, the better your data will appear. Resolution, at a very basic level, means how many pieces of information are in a given area. For your computer screen, that means that high-resolution monitors are able to display more info in a smaller space.

Fortunately, there are no modern monitors with such terrible resolutions, but the principle remains the same. Low-resolution displays can mess with our ability to interpret charts correctly and lead to big, preventable losses in the trading world. Meanwhile, high-resolution screens can display accurate information from several windows simultaneously.

There are three main monitor finishes: glossy, matte, and semi-gloss. Sometimes individual manufacturers have their own type of monitor, too, but most screen types fall within these three categories. Let’s take a look at these three types from the perspective of an active trader:

Glossy:Glossy finish screens are smooth and have a reflective shine. Praised for the vibrant, bouncy colors they give off, glossy screens are bright and exciting, with rich and crisp colors. Unfortunately, they also have a tendency to reflect light and give off glare. For the early morning stock trader, this can be a huge disadvantage when trying to catch up on the latest news or get in that early morning options pick as markets open. Even worse, you’re much more likely to wake up to a layer of visible dust across the screen when using a glossy finish monitor.

Matte:On a microscopic level, these screens are “rougher” than glossy monitors. The result is a screen that is a bit duller with somewhat muted colors, which won’t make them amongst the best monitors for color grading. Matte screens, however, are much less prone to glare, even when in direct light. In the mornings, you’ll be greeted to a screen that appears cleaner and less dusty. The dust will still be there, and possibly more difficult to clean away due to the rough nature of matte screens, but it won’t be as much of an apparent hassle.

Semi-gloss: This type of screen is somewhere between the other two. As a result, it has some of the pros and cons of each and can be a good compromise for those that prefer a balanced approach to their purchases.

Monitors constantly flicker as a result of changing pixel colors. This flickering quality is measured in times-per-second using Hertz (Hz). Screen flicker, even when not noticeable, can pull you out of flow, make you miss important details, and give you major eye strain and fatigue (factors that are avoidable with the right monitors). Traders wanting to burn the midnight oil, either catching up on the day’s news or watching crypto markets, can be particularly damaged by this tiring phenomenon.

The lower the refresh rate, the worse the effects of screen flicker. Unfortunately, refresh rates aren’t the only issue. Even monitors with 144Hz can have flickering issues with hardware malfunctions, as our best 1440p 144Hz monitors guide sadly had to mention about the experiences of the early buyers of the Samsung Odyssey G7.

So, don’t look at refresh rates as the sole reducer in screen flicker. Take a close look at customer reports of hardware issues, especially months after purchase. Similarly, look for “anti-flicker” tech to make sure the monitor has your eyes’ best interest at hand. Still, there is nothing wrong going with a monitor with a high refresh rate and we won’t be considering those below 60Hz.

These three acronyms are commonly used for screen lighting technology and should be properly understood by the trader before making a monitor purchase. Here is the relevant background on each type:

OLED stands for Organic Light-Emitting Diode. OLED monitors are relatively new and do away with backlighting in favor of thin screens. They are capable of the lowest response times and highest refresh rates.

LEDstands for Light-Emitting Diode and is probably the type of lighting you are most familiar with. After all, the typical Christmas tree lights are LED. When used in monitors, they have great viewing angles and reduce eye fatigue when compared to LCD screens.

LCD stands for Liquid-Crystal Display and uses backlighting to help you see the display. Typically, this type of monitor will use more power, have a lower viewing angle, and be slightly worse for your eyes than LED screens.

Typically, most traders will want OLED or LED screens for a high-quality, low-energy product that also reduces eye strain. For a majority of cases, that will mean using an LED screen, but we’re excited about the potential for more OLED monitors to make the cut as more and more are produced.

You should probably have at least two monitors for day trading, like most office work. Another option is getting an ultrawide with On-Screen sectioning, like our day trading choice, the LG Ultrawide WN80C. Day traders might also consider getting one of our best portable monitors choices for when they want the adrenaline rush of swing trades on the go.

You really only need 60Hz for day trading, but more will always be better. To keep your eyes from getting tired from screen flicker, 60Hz should do the trick—screen flicker issues usually have a lot more behind them than simply refresh rate, after all. The intensity of specs needed for a day trader and a pro gamer just isn’t going to be anywhere near the same.

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.

Resolution is a key feature of any monitor. It measures the width and height of the screen in terms of pixels, or “picture elements”, the tiny points of illumination that compose an image. A 2,560 × 1,440 screen, for example, has a total of 3,686,400 pixels.

Common resolutions include 1,920 × 1,080 (sometimes called “Full HD” or FHD), 2,560 × 1,440 (“Quad HD”, QHD, or “Widescreen Quad HD”, WQHD), or 3840 × 2160 (UHD, or “4K Ultra HD”). Ultrawide monitors are also available with resolutions such as 2560 x 1080 (UW-FHD) and 3440 x 1440 (UW-QHD), 3840x1080 (DFHD), and 5120x1440 (DQHD).

The pixels being counted in these measurements are usually rendered the same way: As squares on a two-dimensional grid. To see this, you can either move closer to (or magnify) the screen until you perceive individual blocks of color, or zoom in on an image until it becomes “pixelated”, and you see a staircase of small squares instead of clean diagonal lines.

Beyond increasing the detail onscreen in games or movies, there"s another benefit to higher resolutions. They give you more desktop real estate to work with. That means you get a larger workspace on which to arrange windows and applications.

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.

Monitors can also change resolution. Modern screens have a fixed number of pixels, which defines their "native resolution" but can also be set to approximate lower resolutions. As you scale down, onscreen objects will look larger and fuzzier, screen real estate will shrink, and visible jaggedness may result from interpolation. (Note that it wasn’t always this way: older analog CRT monitors can actually switch between resolutions without interpolation, as they do not have a set number of pixels.)

Screens with 4K resolution and higher introduce another scaling concern: at ultra-high definition, text and interface elements like buttons can start to look small. This is especially true on smaller 4K screens when using programs that don’t automatically resize their text and UI.

Windows’ screen scaling settings can increase the size of text and layout elements, but at the cost of reducing screen real estate. There’s still a benefit of increased resolution, even when this scaling is used — onscreen content, like an image in an editing program, will appear at 4K resolution even if the menus around it have been rescaled.

Manufacturers measure screen size diagonally, from corner to corner. A larger screen size, in tandem with a higher resolution, means more usable screen space and more immersive gaming experiences.

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.

Basically, you want to find a screen where you never perceive an individual pixel. You can do this using online tools that measure pixel density (in pixels per inch), which tells you the relative “sharpness” of the screen by determining how closely pixels are packed together, or the alternative pixels per degree formula, which automatically compares its measurements against the limits of human vision.

It"s also worth considering your own eyesight and desktop setup. If you have 20/20 vision and your eyes are around 20” from your screen, a 27” 4K panel will provide an immediate visual upgrade. However, if you know your eyesight is worse than 20/20, or you prefer to sit more than 24” away, a 1440p panel may look just as good to you.

A monitor"s aspect ratio is the proportion of width to height. A 1:1 screen would be completely square; the boxy monitors of the 1990s were typically 4:3, or “standard”. They have largely been replaced by widescreen (16:9) and some ultrawide (21:9, 32:9, 32:10) aspect ratios.

Most online content, such as YouTube videos, also defaults to a widescreen aspect ratio. However, you"ll still see horizontal black bars onscreen when watching movies or TV shows shot in theatrical widescreen (2.39:1, wider than 16:9), and vertical black bars when watching smartphone videos shot in thinner “portrait” mode. These black bars preserve the original proportions of the video without stretching or cropping it.

UltrawidesWhy opt for an ultrawide screen over regular widescreen? They offer a few advantages: They fill more of your vision, they can provide a movie-watching experience closer to the theater (as 21:9 screens eliminate “letterboxing” black bars for widescreen films), and they let you expand field of view (FOV) in games without creating a “fisheye” effect. Some players of first-person games prefer a wider FOV to help them spot enemies or immerse themselves in the game environment. (But note that some popular FPS games do not support high FOV settings, as they can give players an advantage).

Curved screens are another common feature on ultrawide monitors. These can correct one typical issue with larger ultrawides: Images at the distant edges of the screen look less distinct than those in the middle. A curved screen helps compensate for this and provides a clearer view of the extreme edges of the screen. However, its benefits are most noticeable on larger screens over 27”.

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.

OLEDs have incredible black levels because they don"t use backlights. When an OLED pixel isn"t activated by electricity, it creates no light at all. OLED screens may advertise black levels “below 0.0005 nits”, as taking measurements more precise is usually prohibitively expensive. However, the black level is usually much closer to 0 than 0.0005.

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.

Each pixel onscreen has three color channels — red, green, and blue — illuminated at varying intensities to create (typically) millions of shades. 8-bit color means that each color channel uses eight bits. The total number of shades possible in a screen with 8-bit color depth is 28 x 28 x 28=16,777,216.

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.

Monitors advertising "99% sRGB" are claiming the screen covers 99% of the sRGB color gamut, which is often considered indistinguishable from 100% when viewed with the naked eye.

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.

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.

Edge-lit local dimming relies on groups of LEDs clustered around the edges of the screen to brighten or dim the image in what is typically a fairly limited number of dimming zones.

Full Array Local Dimming (FALD), a more high-end option, uses far more dimming zones (typically hundreds) directly behind the panel rather than just at the edges of the screen. It can give more finite control of the HDR content and dimming of the screen as a result.

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.

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.

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).

Players sometimes confuse response time with input lag, a measurement of the delay before your actions appear onscreen, similarly measured in milliseconds. Input lag is felt rather than seen, and is often a priority for players of fighting games and first-person shooters.

Input lag is a side effect of the processing done by the monitor scaler and the screen"s internal electronics. Selecting “Game Mode” on your monitor"s adjustment menu often switches off image processing features and lessens input lag. Disabling VSync (which prevents some visual artifacts) in in-game option menus can also help reduce input lag.

Adaptive SyncScreen tears will be instantly familiar to most players: A graphical glitch that appears as a horizontal line on your screen, with slightly mismatched images above and below it.

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”.

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.

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.

Pale glow, known as “IPS glow” visible when viewing screens in dark rooms from off-center angles. Response times usually worse than TN panels, but better than VA panels. Lower contrast ratio than VA 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).

Gaming monitors often include a mount with adjustable height, tilt, and degree of rotation. These help you find an ergonomic position for your monitor and help it fit in varied workspaces.

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.

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.

LG has the #1 UltraWide*, Gaming** and UHD monitors*** in the country, making it easy to find the right monitor for all that you do. LG 4K monitors, LED monitors and 5K monitors have the features and style to help you get the job done.

LG Curved UltraWide Monitors offer a large panoramic view and 4-screen split capability so you can see more of your work at once. The LG collection of UltraWide PC monitors include Freesync Monitors and IPS monitors. Find the best computer monitors for designers, photographers, gamers and other professionals who need more room for big ideas.

Bring your gameplay to the next level with LG UltraGear™ Gaming Monitors. Find wide monitor screens with the latest gamer-approved features like NVIDIA G-SYNC™ compatibility, and vibrant IPS monitor display.

Whether you"re looking for a computer monitor for your home office, or need a new UHD monitor to elevate your play, we"ve got you covered. Check out all the latest monitors from LG – including our 4K,IPS and LCD monitors as well as our UltraGear™,UltraWide and UltraFine™collections to find the right PC monitor for your space and your life.

There are a few things to think about when you’re choosing the display size of your monitor. First, consider what you’ll be using the monitor for. If you’re doing graphic design work, or you’ll use the monitor to play games or watch TV shows and movies, a larger monitor makes sense. Smaller monitors may work just fine if you’re mostly using it for surfing the web, word processing or work that’s not graphics-intensive. Also, consider the size of the space where you’ll place your monitor. There are several size categories for monitors at Sam’s Club: Under 20”, 21” – 23”, 24” – 26” and 27” and above. When you’re shopping, look at the specs and pay particular attention to the monitor’s “display area.” That way, you can get an idea of the screen size without the monitor’s casing. Screen size is typically measured on the diagonal, so it’s the distance between opposite corners.

You may also see the term aspect ratio, which refers to the ratio of the width versus the height of the screen. Typically, computer displays have a 4:3 aspect ratio. Widescreen computer displays are usually 16:9.

Do you need more room on your desk or the flexibility to move your screen around? If so, you can get a monitor that’s mounted to your desk with an adjustable arm. These types of monitors are huge space-savers. Because you can change the monitor’s height, anyone who sits at the monitor can easily adjust it. If you need two screens, purchase two monitors and a dual monitor arm, so you can arrange your monitors to sit side-by-side.

ASUS Eye Care Monitors Receive Most Number of TÜV Rheinland Low Blue-Light Emissions and Flicker-Free Certifications. ASUS Low Blue Light Monitors feature a OSD menu that allows you to access four different Blue Light Filter settings onscreen. ASUS Flicker-Free technology uses Smart Dynamic Backlight Adjustment to reduce flicker, this protects you from eye fatigue, irritation and strains.