lcd display refresh rate in stock

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.

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.

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.

Part of this comes down to the Low Blue mode software built into the monitor, so you can adapt your monitor for nighttime use easily. Paired with AMD FreeSync tech, which adjusts the refresh rate to match the FPS of used programs, and you have a system that is easy on the eyes.

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.

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.

You can see quite a few of the features, like rotation to portrait mode and thin edges (Acer calls it “Zero Frame,” which feels a bit too generous), that other monitors on the list had. The humble Acer even has a refresh rate over 60Hz, all without the extra cost.

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.

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.

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.

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.

To show moving images, a television has to change out the pixels displayed on the screen. This is what we mean when we say the television refreshes the image -- it has to draw images in pixels so quickly that the human eye can"t detect the process. If televisions didn"t refresh the pixels, they could only display a still image. That"s not good TV.

The standard television refresh rate is 60 hertz. That means the screen displays an image 60 times every second. An interlaced television will refresh the odd and even lines 30 times a second each in an alternating pattern. Even at this rate, we don"t notice the screen refreshing because it"s too fast for us to detect.

Early LCD high-definition televisions had great resolution but experienced some problems when displaying fast-moving images on screen. Action movies and sporting events in particular gave early LCD sets problems. The images tended to blur as they moved across the screen. Plasma screens didn"t have the same problem, giving that format the advantage when it came to high-speed television content.

The solution to the LCD problem was to increase the refresh rate. A few years ago, the first 120 hertz sets showed consumers that by doubling the refresh rate, the set could reduce the blurring effect. By early 2009, sets with a 240 hertz or higher refresh rate were either on store shelves or scheduled for release.

The higher refresh rates indicate that the televisions refresh the screen more often each second. Whether the faster rate has a noticeable effect on the viewer"s experience is subjective. A viewer may not be able to tell the difference between a set refreshing at 120 hertz and one with a 240 hertz refresh rate.

A significant point is that the phosphors on a CRT screen have their "persistence" designed to support a particular fairly narrow range of refresh rates. The phosphors could be made to have really long persistence (seconds), so there would be no serious flicker down to even maybe a 5 second refresh interval, but then, since the phosphors can only be "turned on" and not "turned off", you wouldn"t be able to see motion much faster than that. (Some early CRT terminals used long-persistence phosphors, with the characters "drawn" on the screen instead of scanned. This didn"t provide very fast "refresh", but it only had to be as good as a 10 CPS Teletype.)

LCDs have the property that they can be turned on or off, at some relatively high rate, and once set one way or the other they have a relatively long persistence, on the order of a second or so. For this reason they can support a wide range of refresh rates.

LCDs are "scanned" via an X-Y matrix of wires, with a pixel at each point where two wires cross. Only one pixel can be manipulated at a time. The voltage on a pixel must be maintained long enough to "charge" the pixel, so that it will hold the charge until refreshed, and all pixels must be visited on each refresh cycle.

And, in addition to the charge time, the liquid inside needs time to mechanically reorient its crystal structure (though, at a physics level, this reorientation is tied at least partially to the "charge" time). Both of these factors place an upper limit on refresh rate.

Creating an array of the best LCD Monitors for Stock Traders is one of the many ways you can make money on your PC. Unlike gaming rigs which require high-speed refresh rates and response times, you will only need clarity and a perfectly sized display to cater to your needs. This niche can involve a lot of different software at any given time, so your best bet is probably a multi-display machine.  You want a set up that allows you scan multiple markets at the same time, decreases eye fatigue, offers high resolution, maximizes speed and keeps costs down.  The setups below are more affordable and responsive than your standard Bloomberg terminal monitor.  Users of TradeStation, Thinkorswim, and eSignal will benefit from the expansive real estate of a multi-monitor setup.

Setting up a command center-styled system can get tricky or expensive, but there are practical solutions you can easily purchase and build yourself. Determining how many displays you will require maximizing efficiency and productivity is key.

However, if your stock market business runs several windows which monitor different markets, clients, brokers or you just need the extra viewing space, you can opt to utilize a mounting mechanism which can hold up to six different displays

The cheapest solution we can find and recommend is the VIVO Hex LCD Monitor Stand, which can hold up to six 24-inch monitors via their 75 x 75 or 100 x 100 VESA mounting holes. This mechanism is made of high-grade steel and aluminum for durability.

Each arm will provide -15 to +15 degrees of tilt, and 360 degrees of swivel and pivot, giving you absolute control over how you would want to position each screen to get the perfect view angle. You also won’t need to worry about messy wires, since the VIVO Hex LCD Monitor Stand also includes an integrated cable management system.

The IPS panel appears crisp and vibrant especially if you use the included sRGB mode in the OSD, which produces a Delta E result of only 1.80. You sacrifice a bit of contrast in this mode, but we can’t argue with correctly saturated images and accurate colors which are often associated with high-end monitors.

Dell is a staple brand when considering professional or business monitors for their outstanding reliability, performance, and sophisticated design. The Dell S2415H is one such model who embodies these qualities, despite having an awesomely affordable price. Clad in the company’s signature matte black and silver cabinets, this borderless display will look fantastic on the mount we specified.

For this category, we recommend users to get either a large 4K display or a stunning ultra-wide monitor with a UW-QHD resolution so you can maximize your virtual viewing space for your widgets and apps.

The Dell P43127Q is one of the most specialized monitors for stock trading because it is a multi-client display. The massive 43-inch screen with a 4K panel can split into four different sections with 1080p resolutions each, giving users a simulated quad monitor experience for unrivaled efficiency.

You can utilize several host devices to stream multiple sources in the Dell P4317Q, or you can utilize the massive viewing space to open your widgets and designate them to a side or quadrant freely. The gorgeous 10-bit IPS panel can display near perfect coverage of the sRGB gamut, and panel uniformity is excellent for something so big.

The Philips BDM4350UC carries a high-quality IPS panel with eye-popping color and detail, plus our review unit did not display any severe backlight bleeding or poor uniformity, which is quite rare for big screens. This option is excellent for designing and movies, and we can’t imagine why it shouldn’t be included as one of the best monitors for stock trading.

The LG 34UC97 is an excellent ultra-wide monitor with an IPS panel with 99%  coverage of the sRGB gamut. This color-accurate wonder gently curves with a 3800mm radius giving its users a perceived wrapped-around feeling which can enhance immersion and focus. You can also split the screen into several configurations via LG’s Screen Split software according to your needs.

If you want something bigger and better than the previous entry, the next best thing is the LG 38UC99 which has a whopping 3840 x 1600 resolution which is enough to display three or four windows side by side. Like most of LG’s high-end monitors, the 38UC99 is able to output 99% sRGB coverage for excellent vibrancy and accuracy.

You can maximize the vast viewing space with the help of LG Screen Split 2.0, plus you can enjoy a bit of gaming with its 75Hz refresh rate which is complemented by AMD Freesync for image stability and tear-free enjoyment. The LG38UC99 is also big on features since it is equipped with a plethora of image-enhancing options and a multitude of connection ports which include the future-proof USB-C for charging and harnessing audio/video signals from a compatible device.

Ah, refresh rates. If you’re looking to get the most out of your e-sports games, listen up. Most monitors aren’t set up with the highest option straight out of the box, which means you might be missing out on some buttery smooth gameplay. So, whether you’re looking to increase your refresh rate for the ultimate gaming experience or figure out which one is is best for you and your play style, we’ve got all the answers here. Read on to learn more.

The refresh rate is how quickly a monitor can pull up a new image. In other words, the higher the refresh rate, the smoother the visuals will look on your screen. Essentially, it reduces annoying flickering or stuttering in faster-paced games. Higher refresh rates matter more if you’re playing action-packed games like Cyberpunk 2077 as opposed to older titles like Minecraft, which are less demanding on your computer’s system. However, when it comes to picking a monitor with a specific refresh rate, it really depends on what you plan on using it for. Are you a casual gamer or are you looking to dip your toes in the competitive arena?

If you’re just watching movies or browsing the web, a monitor with a high refresh rate isn’t going to impact the visuals all that much. If you’re playing intense first-person shooters, then a higher refresh rate will definitely improve your gameplay. Your monitor needs to be able to keep up with a GPU that’s shelling out 100 frames-per-second, though. They need to work in tandem. If your GPU is pumping out a bazillion frames-per-second and your monitor isn’t refreshing fast enough, you’ll experience screen tearing, which is when the image looks like it’s being split in two.

Checking or changing your monitor’s refresh rate is simple. If you’re using Windows 10 or 11, press the Windows + I buttons to access the Settings menu (you can also open it from the Start menu). From there, click on Display Settings and then scroll down to Advanced Display Settings. This is where you’ll find the monitor’s model number, the current refresh rate, and other supported refresh rates. By selecting Choose a Refresh Rate, a drop-down menu with supported refresh rates will appear. Try different options to find your preferred refresh rate.

The sweet spot for a monitor with a solid refresh rate depends on what kind of gamer you consider yourself to be. For those who want to try out competitive gaming, I recommend a monitor with a 144Hz refresh rate because it’s a decent starting point. They’re not outrageously expensive (many of them often go on sale) and they work well with first-person-shooter games, which rely on fast reaction times. For casual gamers, 60Hz is perfectly acceptable.

As someone who spends almost every night on Final Fantasy XIV, I can say with confidence that my Acer R221Q monitor gets the job done. It has a max refresh rate of 60Hz, which is fine for this type of game. You don’t need to worry about fast reaction times in MMOs. Still, when I’m in the middle of a dungeon, I don’t experience any stuttering or screen tearing. Plus, these monitors are more affordable than other options. That said, the jump from 60Hz to 144Hz is noticeably better.

The GPU’s frame rate is entirely separate from the monitor’s refresh rate. FPS (aka frames-per-second) is the number of frames your GPU is making. The refresh rate is how frequently the monitor updates the image on the screen. If your GPU’s frame rate is higher than your monitor’s refresh rate, you’re going to run into some problems. When the two aren’t lining up, you’ll experience the wackiness of screen tearing, where two different images will show up at once. VSync technology fixes this by essentially forcing the GPU and monitor to get along by synchronizing them.

It’s natural for anyone shopping desktop monitors to be swayed by size, shape, resolution and color quality. But depending on your business needs, you may also want to consider a less flashy feature: the monitor’s refresh rate.

Refresh rate is the frequency at which the screen updates with new images each second, measured in hertz (cycles per second). The content may look steady on the display, but what the viewer can’t see is how fast the content is changing — up to 360 times a second. The higher the refresh rate, the smoother the visual quality.

Super high monitor refresh rates aren’t all that important for office workers focused on lighter computing like word processing, spreadsheets and emails. But in more visual professions like creative production and game development, a high refresh rate for monitors is invaluable.

The standard refresh rate for desktop monitors is 60Hz. But in recent years, more specialized, high-performing monitors have been developed that support 120Hz, 144Hz and even 240Hz refresh rates, which ensure ultra-smooth content viewing, even for the most demanding visual processing needs.

Just buying a high refresh rate monitor doesn’t mean the display quality will magically improve. The monitor’s refresh rate reflects the maximum rate at which the display can change the visuals. What happens on the screen depends on the frame rate of the output — the number of video frames that are sent to the display each second.

A 120Hz monitor has obvious benefits, though, for modern gaming platforms that animate at 100 fps or higher. A high refresh rate helps the screen keep pace with the high-twitch inputs of players and translate them into super smooth actions on screen.

When refresh rate and frame rate are mismatched, it can result in something called screen tearing. If the computer’s graphic card is pushing out more frames than the monitor’s refresh rate can handle at a given moment, users may see two half-frames on the screen at once, bisected horizontally and slightly misaligned. In short, it doesn’t look good. Games are usually configured to automatically match the PC’s graphics capabilities to avoid tearing, but running high-action visuals more slowly than intended makes for a compromised viewing and playing experience.

Response time — the time it takes for a pixel to change color — also plays a role in refresh rate. A monitor can only refresh as quickly as the LCD display can make those rapid-fire color shifts.

Particularly for fast-paced visuals, higher refresh rates and faster pixel response times reduce ghosted visuals, and ideally eliminate them. With slower tech, a high-pace action sequence may come with trailing images that result in softer, even blurry on-screen visuals.

The appeal of high refresh rates is obvious for at-home gamers looking for a responsive, hyperrealistic playing experience. And this leisure use is part of a vast global industry. SuperData reported that the video gaming industry generated roughly $140 billion in 2020, up 12 percent from $120 billion in 2019. Statista estimates there are now more than 3 billion gamers worldwide.

In the U.S. alone, the video game industry employs 220,000 people across all 50 states, according to the Entertainment Software Association. That’s a lot of game developers, graphic artists and playtesters working in front of monitors, most of them in need of optimal visual quality and speed at their workstations. While 60Hz refresh rates may work fine for people in finance and human resources — and even the clerical side of gaming companies — people on the visual and testing side need at least 120Hz to do their jobs well.

And it’s not just gaming. While the film industry has long produced movies at 24 fps, that frame rate is a relic of times when there were different technical restraints on cameras and projection, so a faster frame rate required more expensive film. The 24 fps standard has stuck around largely because that’s what the public is used to. Today, filmmakers are increasingly pushing frame rates as high as 120 fps.

High-performance monitors with high refresh rates come with obvious visual improvements, but monitor upgrades in general bring a broader range of business benefits.

Premium monitors also come with built-in (adjustable) technologies that can reduce eye strain. Manufacturers, led by Samsung, have increasingly introduced curved widescreen monitors that equalize the focal distance of every part of the screen. The left and right edges are the same distance from the viewer’s eyes as the middle of the screen, reducing eye strain, as viewers don’t have to adjust their eyes as they scan the display.

High refresh rate monitors with high response times also tend to come with other premium features, such as full support for USB-C connections. With a single cable, the user can connect their PC to a monitor that functions as a USB hub for peripheral devices. This negates the need for expensive and often clunky docking stations, and can significantly reduce the number of cables at each workstation. In addition to tidier, streamlined workspaces, this also reduces the demand for IT support. With fewer connectors and devices, you tend to get fewer problems.

Around the workplace, anyone in a visually creative role will see immediate benefits from a higher refresh rate. And while those in non-visual roles probably won’t see any difference, the key may be futureproofing.

When IT and information systems (IS) teams plan capital purchases, they need to look several years ahead for potential technical requirements down the road. While high-refresh monitors may have a defined user community right now, it’s likely more use cases and worker needs will develop. Monitors with low refresh rates can’t get better, but higher-refresh monitors can serve your display needs both now and in the future.

Thanks to OnePlus, 90Hz displays became a popular word amongst smartphone enthusiasts since 2019. High refresh rate monitors have been around for ages, but it’s only for the last couple of years that the tech has successfully transitioned to phones. (हिंदी में पढ़िए)

While most of us talk about the screen’s resolution, colors, PPI, and type, we never consider the display refresh rate a priority. Well, that has now changed and high refresh rate screens are now in demand.

Before we list phones with 90Hz or 120Hz refresh rate displays, let’s talk about what’s refresh rate and how much of a practical impact it makes at the user end.

The term refresh rate, in layman terms, is the count of how many times the screen refreshes its image in one second. It is basically measured in Hz. At present, most smartphone displays have a 60Hz refresh rate, or in other words, even if you are viewing a static image, your display is redrawing the same picture or is pushing the same frame 60 times every second.

At times people tend to get confused between higher refresh rates and higher frame rates (Hz vs FPS). FPS is the count of how many frames are being pushed to the display every second. FPS is related to the content you run on the screen, which might be a video or a game.

So, ideally, if your video has been shot and packaged at 90 frames per second (FPS) and your display has a 90Hz refresh rate, your phone will be able to push all frames.

Not much content is available to take advantage of 90Hz, so most videos and games push only 60 frames per second. This is also why most high refresh rate phones are programmed to dial down to 60Hz refresh rate when you are watching videos.

If the touch refresh rate and the display refresh rate are both clocked at 60Hz, it means the tracking and refreshing coincide, and the animations are rendered one interval later.

However, say, if the touch refresh rate is 120Hz and the display refresh rate is 60Hz, animations will still be snappier and smoother, and your screen would still appear to be more responsive, but the overall experience won’t match the fluidity of having a 120Hz refresh rate screen.

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.

Samsung Galaxy S21 Ultra is the first Samsung phone to include 120Hz refresh rate support at 2K resolution. The Galaxy S21 and Galaxy S21+ support a 120Hz refresh rate but the display maxes out at Full HD+ resolution. The refresh rate on all of these phones is dynamic, which is to say it can vary between 10Hz and 120Hz depending on the display content.

But whatever the specs might be, Samsung flagships have a brilliant display with that wow factor you’d expect for the price. The Exynos 2100 SoC lends a significant performance boost and it’s paired with up to 16GB LPDDR5 RAM, and 512GB of UFS 3.1 storage.

Asus ROG Phone 5 is one of the few phones with a 144Hz AMOLED display in the country. The gaming phone from Asus is driven by Qualcomm’s best – the Snapdragon 888 chipset. Speaking of the display, 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.

OnePlus can be credited with making high refresh rate screens on phones mainstream. The OnePlus 9 Pro enjoys a 120Hz fluidity at QHD (2K) resolution. The 6.7-inch AMOLED display is HDR10+ compliant and is shielded by Gorilla Glass 5.

Mi 11 Ultra is the latest flagship from the world of Xiaomi to enter the Indian market. The 2021 Mi flagship adheres to the virtual flagship standard of featuring a 120Hz display on the top.

Vivo X70 Pro Plus has a dual-curved edge AMOLED screen that’s well-calibrated and refreshes at 120Hz. It is powered by Qualcomm Snapdragon 888+ chipset and has a gimbal camera that proved quite effective in improving lowlight photography.

Realme GT 5G has got a 6.43-inch sAMOLED screen with a 120Hz refresh rate and 360Hz touch sampling rate. The panel is FHD+ resolution as well with 100% DCI-P3 color coverage and 1000nits peak brightness.

The bezels surrounding the screen have been kept to the minimum endowing a 91.7% screen-to-body ratio. The left cornered punch-hole cutout also is unobtrusive. Rest, here under the display, you get a fingerprint reader and top Dragontail glass protection.

Another thing that will draw specs nerds towards Poco X3 Pro is its 6.67-inch 120Hz display that supports full HD+ resolution. HDR10 support is also present on the device. While the F3 GT 5G display specs look staller, we found overall color chemistry slightly off from our taste.

Oppo Find X3 Pro brandishes a 6.7″ AMOLED display with dual curved edges. The LTPO panel clocks a 120Hz refresh rate support. It is Quad HD+ in resolution, with 525PPI pixel density, up to 1300 nits brightness, end-to-end 10-bit color support, 97% NTSC/100% DCI-P3 color gamut, and Gorilla Glass 5 protection on top.

iQOO 7 (review) features a 6.62-inch FHD+ AMOLED panel with support for a 120Hz refresh rate and 300Hz touch sampling rate. This is also an HDR-certified panel with standards like HDR10/HDR10+. The contrasts are met by a claimed peak brightness of 1300Nits.

For media consumption, this display is DRM L1 rated for HD streaming on Netflix, Youtube, and Prime videos. And the presence of DC Dimming should relieve your eyes from the PWM flicker strain.

The Moto G60 (review) only has an LCD panel, but one that refreshes 120 times a second. It is 6.78 inches in size with FHD+ resolution and HDR10 colors and contrasts. Since G60 is a stock-ish Android phone, there are no heavy animations either. The display can get sufficiently bright too under the sun.

As of today, 90Hz and 120Hz refresh rate has become a mainstream feature. In fact, there are several mainstream phones that offer displays with a 144Hz refresh rate.

You can change the refresh rate on your monitor through your display settings, though it may be limited by the monitor, graphics card, and screen resolution.

Your display"s refresh rate is a measure of how frequently the on-screen image is updated. Refresh rate is measured in hertz (Hz), which indicates the number of times per second something occurs. So a 60Hz display is one that has a refresh rate of 60 times per second.

Most people don"t need to worry much about refresh rate, especially when using a computer for ordinary productivity applications. That"s because computer displays typically have a refresh rate of 60Hz — that"s the default for many monitors — and that value is perfectly adequate almost all the time. It"s fast enough that there"s no obvious blurring or "image tearing" when there"s on-screen motion. Below this value — 30 Hz, for example — you might see some stuttering or jitteriness when things are moving on the screen.

Higher refresh rates are of interest to gamers, though. Because many video games rely on fast-moving visuals, many computer displays are optimized for gaming with very high refresh rates — 144Hz, 240Hz, and even 360Hz. For gaming, the higher the refresh rate the better.

There"s also a relationship between screen resolution and refresh rate. Because a computer only has so much bandwidth for the display, you might find that at higher resolutions, your display can"t run at its maximum refresh rate. If you are adjusting these settings, you might need to make a choice between, for example, an HD (1920x1080) display at 144Hz or a 4K (3840x2160) resolution at 60Hz.

Depending on your monitor or laptop display, you might be able to adjust the refresh rate. Some displays aren"t running at their highest refresh rate by default, for example, and it"s adjustable in the system settings. If you try to increase the refresh rate but it won"t go as high as you think the monitor is designed to go, you might need to lower the resolution to make a higher value become available.How to change the refresh rate on your PC monitor

You can open the refresh rate settings on any Windows PC, though whether you can change it — and what values you can set — depend on your graphics card, monitor or laptop display, and the resolution you are running.Click the Start button and click "Settings."

Click the link "Advanced display settings." On the Advanced display settings page, you can see details about your monitor, including the currently set refresh rate.

Finally, in the Monitor Settings section, you can click the Screen refresh rate dropdown and choose a different refresh rate. Click "OK" to save this setting.How to change the refresh rate on your Mac monitor

If you have a MacBook Pro (16-inch 2019 model) or a Pro Display XDR monitor for your Mac, you can adjust the refresh rate. Here"s how:Click the Apple menu, then choose "System Preferences."

Dave Johnson is a technology journalist who writes about consumer tech and how the industry is transforming the speculative world of science fiction into modern-day real life. Dave grew up in New Jersey before entering the Air Force to operate satellites, teach space operations, and do space launch planning. He then spent eight years as a content lead on the Windows team at Microsoft. As a photographer, Dave has photographed wolves in their natural environment; he"s also a scuba instructor and co-host of several podcasts. Dave is the author of more than two dozen books and has contributed to many sites and publications including CNET, Forbes, PC World, How To Geek, and Insider.

Every aspect of the light imaging system in Pro Display XDR is crucial to the overall quality of what you see onscreen. Each element builds on top of the last to create a display with unbelievable brightness and contrast.

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

For even greater control of light, each LED is treated with a reflective layer, a highly customized lens, and a geometrically optimized reflector that are all unique to Pro Display XDR. Through a pioneering design, light is reflected, mixed, and shaped between two layers to minimize blooming and provide uniform lighting.

Converting blue light to white is a difficult process that requires extremely precise color conversion. It’s why most display makers use white LEDs. Pro Display XDR accomplishes this conversion with an expertly designed color transformation sheet made of hundreds of layers that control the light spectrum passing through them.

Pro Display XDR extends exceptional image quality to the very edge. To ensure that LEDs along the sides of the display mix well with adjacent ones, a micro-lens array boosts light along the edges. This creates uniform color and brightness across the entire screen.

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

If you’re familiar with the general concept of overclocking—the process of tweaking a component’s stock speeds, clocks, or performance— you’re already familiar with monitor overclocking. It’s the same principle, but in monitor overclocking, you’re trying to increase your monitor’s refresh rate.

Overlocking pushes components a little harder in the knowledge that we can usually get more performance out of that component without risking it too much. In the case of overclocking a computer monitor, we manually increase the stock refresh rate to dig into that tolerance a little to make it work harder and faster for our benefit.

The short answer is we overclock because we can. The longer answer is, we do it because monitor overclocking can give us a higher refresh rate, which improves our in-game experience. Why pay extra for a monitor with a higher refresh rate if you can squeeze out a little more performance from the one you have?

Refresh rates are measured in Hertz (Hz). The higher the Hz, the faster the refresh. One Hertz means the screen is refreshed once per second. A 100Hz screen refreshes 100 times per second. A 144Hz screen refreshes 144 times per second. With so much going on within the average game, it should be clear why having a faster refresh rate can benefit gamers.

Monitor overclocking does not improve the graphics quality of a game. It marginally improves the fluidity of the game. A higher refresh rate means a smoother in-game experience. In turn, a smoother in-game experience can help competitive gamers gain an edge over their opponents. And, it can also give visually-driven games a more lifelike feel.

Test after every change. Increasing the refresh rate too much can cause frame skipping, artifacts, or a blank screen. If this happens, reboot into Windows Safe Mode and reset the refresh rate or reduce the refresh rate in CRU.

CRU enables us to program our monitor with custom refresh rates and override the stock rates programmed by the manufacturer. It works on both Nvidia and AMD GPUs.

Once rebooted, right-click the desktop and select either your AMD Catalyst Software Suite or Nvidia Control Panel and set the monitor refresh to the same value you set in CRU.

You don’t have to use CRU, however. You could use EVGA Precision for NVIDIA-powered monitors or use AMD Radeon drivers to create a custom refresh rate. CRU just makes overclocking a monitor a bit easier—but is by no means the only way to get the job done.

Ultimately, overclocking your monitor won’t provide as big of a benefit as will overclocking other components. And, if you have the budget to purchase a high refresh rate monitor (ideally, a FreeSync or G-Sync display), that would be the better route to go.

But, if you currently have a cheap 1080P monitor with a 60Hz refresh rate and you can’t afford to bump up to a 144Hz display (or, even a 240Hz display), overclocking your existing monitor will your in-game experience a small boost.

High refresh rates and motion smoothing are just the beginning. Numerous other anti-blurring technologies, including TVs. Learning the pros and cons of each should help you get a TV image you"re happier with. Or at least, happier than before I ruined TVs for you.

In the early days of flat TVs and displays, the culprit was often the slow speed of the liquid crystal elements that create an image on LCD TV. These days most LCDs are able to change their states fast enough that motion blur is caused by something else: "sample and hold."

LCDs -- and modern OLED TVs -- configure their pixels to show an image and then hold that image until the screen refreshes. With most TVs this means that for a full one-sixtieth of a second, the image is stationary on screen. Then the screen refreshes and a new image is held there for another one-sixtieth of a second. Some TVs have faster refresh rates, and in some countries TV refresh every one-fiftieth of a second, but the process is the same.

Higher refresh rates don"t, in and of themselves, fix the motion blur problem. The images are still being held, and if you just double the number of still images to fit 60 into 120 you haven"t really changed anything. You need something to change to, and that"s when things get interesting.

Nearly every movie and nonreality TV show is recorded at a frame rate of 24 frames per second. This goes back to when nearly everything was shot on film. Though the early days had a variety of frame rates, Hollywood settled on 24, and it has been that way for decades.

Interpolating frames increases the apparent frame rate, so 24fps content no longer looks like 24fps content, because when shown on these TVs, it isn"t 24fps content. The interpolation effectively increases the frame rate so 24fps content looks more like 30 or 60fps. More like sports, reality TV or the content that gives this effect its name: the soap opera effect. That"s where our friend Tom comes in.I’m taking a quick break from filming to tell you the best way to watch Mission: Impossible Fallout (or any movie you love) at home. pic.twitter.com/oW2eTm1IUA— Tom Cruise (@TomCruise) December 4, 2018

Fortunately, most TVs not only give you the option to turn it off, but let you adjust how intense the frame interpolation is. So instead of a created frame that"s halfway between A and B, maybe it"s only slightly different from A or slightly different than B. If your TV has this adjustment, it"s worth playing with to see if you can find a setting that reduces motion blur enough that you"re not bothered by it, but isn"t as intrusive as the more intense frame interpolation modes are. Some even separate out the processing to reduce the judder caused by

This, too, has its history in cinema. Though filmed at 24 frames per second, movies weren"t shown at 24 frames per second. This was slow enough that some people saw the flicker. Instead, each film frame was shown twice, with a shutter blocking the light in between. Some cinemas went even further, showing each film frame three times. This blanking was a simple way to give some of the "performance" of a higher frame rate without the cost of additional film stock.

Like frame interpolation, black frame insertion has different implementations. Rarely would a TV with a BFI mode show a black frame for the same length of time it shows a real frame. It"s also not necessarily a "frame" at all. All LCDs create light with a

The only two flat-panel TV technologies available today, LCD and OLED, both suffer from motion blur. However, there is still one display technology that doesn"t: