will lcd monitors burn in free sample

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Have you ever left your TV or monitor on for days, stuck on the same image? You return to your screen, only to find an image burned into the display. No matter what you do, it won"t go away. It is a permanent image burn.

Why do monitors and TVs get image burn? Why can"t manufacturers prevent LCDs and plasma screens from a burnt image imprint? Moreover, what can you do to fix an image burn?

In some cases, you can minimize the image burn effect. In others, you can remove the image burn completely, so long as it hasn"t been burning too long.

Before flat-screens and crystal displays, most TVs and monitors featured CRT (Cathode Ray Tube) technology. In CRTs, individual pixels comprise a red, blue, and green phosphor component. Depending on the intensity of each phosphor component, the pixel appears to the human eye as a unique color.

When a particular still image remains for too long, the intensity of each phosphor component diminishes at an uneven rate. The result is a ghost image on the screen, which is known as image burning.

Plasma displays use plasma, a gaseous substance containing free-flowing ions. When the plasma is not in use, the particles in the plasma are uncharged and display nothing. With the introduction of an electric current, the ions become charged and begin colliding, releasing photons of light.

This is a very simplified version of how a plasma screen works. However, the main thing to understand is that plasma screens use phosphor material (like CRTs) to turn those photons into images.

LCD and LED do not work in the same way as CRTs, either. LCD and LED screens use backlit liquid crystals to display colors. Although manufacturers market screens using LED and LCD, an LED screen is still a type of LCD. The white backlight filters through the liquid crystals, which extract particular colors per pixel.

LCD and LED displays don"t suffer from the same type of image burn as CRTs and plasma screens. They"re not completely clear, though. LCD and LED screens suffer from image persistence. Read on to find out more about image persistence.

Before you can fix screen burn-in, take a second to understand why these images burn in the first place. LCDs and LEDs don"t suffer from burn-in as seriously as plasma screens. But static images can leave an imprint on both display types if left alone for too long. So, why does image burn happen?

First, let"s tackle plasma screen burn-in. Remember why CRTs experience image burn? When a still image remains on the screen for too long, the phosphor components in each pixel wear out at different rates. The uneven burn rates leave behind a ghost image, forever etched into the screen.

Plasma screens also suffer from phosphor deterioration. Plasma burning occurs when pixels on the screen are damaged through long exposure. The phosphor loses its intensity and only shows the light it was fed repeatedly. In this case, the still image, which causes the burn.

LCD and LED screens can also experience image burn, though the image burn process can take longer to develop into a permanent issue. In addition, LCD and LED screens suffer from another issue, known as image retention (also known as image persistence or an LCD shadow).

Image retention is a temporary issue that you are more likely to notice before it becomes a permanent issue. However, proper image burn can still affect LCD, LED, and OLED screens.

Image retention is a different issue from image burn (although it is a precursor to image burn). For example, you"re using an image of a steam train as a reference point for a drawing. You have the steam train image on your screen for a few hours before you decide to play a video game instead.

When you load up the video game on the screen, you can still see the faint outline of the steam train on the screen. The steam train image will remain for a short while, but the movement and color changes of the video game (or film, TV show, or other media type) should erase the retained image.

The other thing to consider is that LED and OLED image burn-in, when it happens, is irreversible. That"s because of how LED and OLED screens work. Individual pixels within an LED display decay when they emit light.

Under normal use, an LED, OLED, or QLED screen won"t suffer image burn. However, if you leave your screen on a single channel for hours every day, then burn-in can become an issue, as it would with almost any screen.

Issues arise when a screen shows a single news channel 24 hours a day, every day, causing channel logos to burn-in, along with the outline of the scrolling news ticker and so on. News channels are a well-known source of television burn-in, no matter the screen type.

Image burn-in fixes exist for LCD and plasma screens. How effective an image burn-in fix is depends on the screen damage. Depending on the length and severity of the image burn, some displays may have permanent damage.

The best fix for screen burn is to prevent it in the first place. Okay, that isn"t super useful if your screen is already experiencing image burn. However, you should always try not to leave your screen on a still image for too long. The time it takes for an image to burn-in varies from screen to screen, between manufacturers, sizes, and panel type.

My personal rule of thumb is to turn off the display if I plan on being away for more than 15 minutes. That way, it is difficult to get caught out, plus you save yourself money on electricity costs and monitor or TV wear and tear.

Another prevention method is to reduce screen contrast as much as you can. Unfortunately, most screens aren"t calibrated correctly, often pushing the contrast and brightness settings too high.

Lower contrast means the lighting across your screen is more even. This means less strain on specific areas of the screen, which helps protect against image burning.

If your plasma or LCD screen already has image burn-in, you can try turning on white static for 12 to 24 hours. The constant moving of white-and-black across your screen in random patterns can help remove the ghost image from your screen.

Unfortunately, this won"t work for extreme cases. Some TVs will have a built-in pattern swiping option that basically accomplishes the same thing (filling your screen with random patterns).

Pixel-shift constantly slightly adjusts the image on your screen, which varies the pixel usage to counteract image burn. You might have to enable a pixel or screen shift option in your screen settings. Pixel-shift is a handy feature for LED and OLED screens that cannot recover from image burn and should help counteract an LCD shadow.

Other modern screens feature built-in screen refresh functions that the manufacturer will advise using to remove image retention and image burn issues.

The best tool for fixing ghost images is JScreenFix. The original program helps fix monitors with dead pixels, but the same company also released an "advanced" version of the tool, known as JScreenFix Deluxe.

While the Deluxe version uses advanced algorithms to repair burned screens and prolong plasma and LCD longevity, the official site is no longer up and running, and there is no way to download the full version officially.

You can find the free version of the Deluxe app online, but it is limited to 20 minutes running at a time. Furthermore, we"re not going to link out to the versions you can find online as we cannot verify the security of these installations. If you do use the Deluxe version, you do so at your own risk.

Another option is to set a completely white desktop background and leaving to run for a few hours. The solid color might reset the image burn. A solid color background is more likely to help with image persistence than image burn, but it is still worth trying.

If you have television burn-in, you can attach a laptop to your TV using an HDMI cable, extend your desktop to the television, and share the white screensaver. Hopefully, that will shift your television burn-in.

The team over at ScreenBurnFixer offers a few different ways you can attempt to fix screen burn on your TV or monitor. As with any other screen burn-in fixes, their chance of working depends on the scale of the issue.

You can head to the ScreenBurnFixer Video page and find a video that matches your screen type, then let the video play for as long as possible (we"re talking multiple hours, not a quick half an hour blast). Alternatively, head to the Chart page and find your device or a device that matches your specifications.

https://www.anrdoezrs.net/links/7251228/type/dlg/sid/UUmuoUeUpU35824/https://www.youtube.com/supported_browsers?next_url=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DnWfWaQvenw4

There are several ways you can attempt to fix screen burn-in. The results will vary between the screen type and the level of burn-in. A screen with extensive image burn may not clear entirely, although you might see an improvement.

Some screen degradation over time is understandable. However, if you follow the steps in this guide, you"ll protect your screen from image burn before it becomes a permanent issue.

I remember in the old days of CRTs, my dad would warn me about dreaded "burn-in" on my computer screens and TVs. I know there was a big debate about plasma TVs and burn-in too, but is it still a problem? Does it affect LCDs? Do I need to care at all?

In general, burn-in isn"t nearly the problem it once was. However, you should still be aware of what it is and how to prevent it. Here"s what you need to know.

Burn-in is permanent, but it"s often confused with "image persistence," which is a temporary version of the same thing. Burn-in is most prominent in CRT and plasma screens, which use phosphors to create the image on your TV or monitor. However, it"s also possible to cause image persistence on an LCD-based screen, Photo by

CRTs and Older plasma TVs were quite susceptible to burn-in, but many modern TVs have features designed to lower the risk. Many contain a feature called "pixel shifting," for example, that shifts the image on your screen just enough so that the pixels are regularly changing, (but not so much that it"s noticeable to you). Some cheaper plasmas may be more susceptible, so this is an area where you get what you pay for.

If you do experience a little image persistence, it"s probably just temporary, and you can get rid of it with almost no effort. We"veRemove LCD image burn-in

The chances of getting permanent burn-in are pretty slim these days. You"d have to actually try to burn in your screen. With regular home use, you"re probably not watching the same persistent image for long enough. If you have a business that shows the same image on screen all day long, that might be a different story, but for most personal use, you shouldn"t have to worry. Photo by

On August 31, 2017, we started a long-term 20/7 burn-in test on 3 TVs (OLED vs VA vs IPS). Our goal was to see how their performance changed over time, especially with static images like network logos, black bars in movies, or video games with a fixed interface.

We already test for temporary image retention, which generally subsides over a few minutes. It"s a temporary annoyance and results in some faint artifacts usually visible in high contrast areas.

Permanent image retention is a more serious issue, but it requires looking at the TV"s performance over months or years. We tested three TVs side-by-side, the OLED LG B6, the VA Samsung KU6300, and the IPS LG UJ6300 in a two-year-long test.

This test ended in 2019, as we feel that we now have a good understanding of what types of content are likely to cause burn-in. However, we still haven"t addressed the issue of longevity in general, and we don"t know if newer OLED panels are still as likely to experience burn-in. To that end, we"ve decided to start a new accelerated longevity test to better understand how long new TVs should last and what are the most common points of failure. Although burn-in isn"t the main goal of this test, we"re hoping to better understand how newer OLED panels compare to the older generation of OLEDs. It"s generally accepted that burn-in isn"t as much of an issue as it used to be, but it"s unclear just how much better the newer OLED TVs are. With new panels, new heatsinks, and even brand-new panel types like QD-OLED, there are a lot of unknowns.

The 20/7 burn-in test ran for about two years, from August 31, 2017, until November 15, 2019. The goal of this test was to see whether burn-in could happen for the three most popular TV types (VA LCD, IPS LCD, and OLED). These are the results of our experiment:

Long periods of static content will cause burn-in on OLED TVs. The red sub-pixel appears to degrade the fastest, followed by green and blue. The effect is cumulative, as even cycled logos do burn-in (but over a longer period). We investigated this further in our Real Life OLED Burn-in Test.

Black letterbox bars were displayed for almost 5,000 hours (equivalent to 208 days of continuous letterboxing). Some letterboxing is starting to become noticeable on full-screen slides, but not in normal content. As a result, we don"t expect letterbox bars to cause any issues for people. It"s due to the uneven aging of the screen. The black portions of the screen haven"t aged as much as the rest, so those dark areas appear brighter in regular content.

Some of the LED backlights of the UJ6300 died, so the image is unwatchable. To keep a constant brightness of 175 nits across these TVs, the UJ6300"s backlight was turned up to maximum, while the other TVs achieved this brightness at a lower backlight/OLED Light setting. It may mean that it has been operating at a higher temperature, contributing to the failure.

The TVs were placed side-by-side in one of our testing rooms, as shown to the right. The TVs stayed on for 20 hours a day, seven days per week, running our test pattern in a loop. They were turned off for 4 hours each day using USB infrared transmitters connected to each TV and controlled by a PC to better represent normal (but still very heavy) usage. On the B6, the "Pixel Shift" option is enabled. A single Android TV Box was used as a source, with an HDMI splitter used to provide the same material to each display.

We used our calibration settings, as shown on the review page below, but with the backlight adjusted to reach 175 nits on our checkerboard pattern and no white balance settings applied.

A 5.5-hour video loop was used as the test pattern. It was designed to mix static content with moving images to represent typical content. The base material is a recording of over-the-air antenna TV with an overlay of RTINGS logos of different opacities and durations and added letterbox black bars. These additional elements are:

Apart from the fact that it doesn"t feel like a "real" IPS panel (at certain angles part of the screen is dimmer), the screen somehow has a weird burn-in issue. After about 15-20 minutes of viewing a static image (like a PDF for example) and then switching to a dark image, I can already read bigger text on the area where the PDF was. In fact, while I was writing this I can already see the outline of this text box if I switch to a dark window (which is 100% opaque).

EDIT: I was on YouTube few minutes ago for maybe 15 minutes and I was able to take a picture of the burn-in afterwards. If you know the YouTube logo, you will easily recognize it and this was just a short time I had it on the screen while watching a video.

TFT LCD image retention we also call it "Burn-in". In CRT displays, this caused the phosphorus to be worn and the patterns to be burnt in to the display. But the term "burn in" is a bit misleading in LCD screen. There is no actual burning or heat involved. When you meet TFT LCD burn in problem, how do you solve it?

Burn in is a noticeable discoloration of ghosting of a previous image on a display. It is caused by the continuons drive of certain pixels more than other pixels. Do you know how does burn in happen?

When driving the TFT LCD display pixels Continously, the slightly unbalanced AC will attract free ions to the pixels internal surface. Those ions act like an addition DC with the AC driving voltage.

Those burn-in fixers, screen fixer software may help. Once the Image Retention happened on a TFT, it may easy to appear again. So we need to take preventive actions to avoid burn in reappearing.

For normal white TFT LCD, white area presenting minimal drive, black area presenting maximum drive. Free ions inside the TFT may are attracted towards the black area (maximum drive area)

When the display content changed to full screen of 128(50%) gray color, all the area are driving at the same level. Those ions are free again after a short time;

One of the problems with old CRT monitors, over time, was a condition called burn-in. This phenomenon resulted in an imprint of an image onto the display that was permanent, caused by the continuous display of a particular picture on the screen for extended periods. A breakdown in phosphors on the CRT results in the image being burned into the screen, hence the term. Is there such a thing as LCD screen burn-in?

LCD monitors use a different method for producing the image on the screen and are immune to this burn-in effect. Rather than phosphors generating light and color, an LCD uses a white light behind the screen with polarizers and crystals to filter the light to specific colors. While LCDs are not susceptible to burn-in the same way CRT monitors are, LCDs suffer from what manufacturers call image persistence.

Like the burn-in on CRTs, image persistence on LCD monitors is caused by the continuous display of static graphics on the screen for extended periods. Long-term-static images prompt the LCD crystals to develop a memory for their location to generate the colors of that graphic. When a different color appears in that location, the color will be off and will display a faint image of what was previously displayed.

The persistence is the result of how the crystals in the display work. The crystals move from a position allowing all light through to one that doesn"t allow any. It"s almost like a shutter on a window. When the screen displays an image for an extremely long time, the crystals can switch to a particular position. It may shift a bit to alter the color, but not completely, resulting in a display other than the one intended.

This problem is most common for elements of the display that do not change. Items that are likely to generate a persistent image are the taskbar, desktop icons, and background images. These tend to be static in their location and displayed on the screen for an extended period. Once other graphics load over these locations, it might be possible to see a faint outline or image of the previous graphic.

In most cases, no. The crystals have a natural state and could shift depending on the amount of current used to generate the desired color. As long as these colors change periodically, the crystals at that pixel should fluctuate enough, so the image doesn"t imprint into the crystals permanently. However, if the screen is always on the image that doesn"t change, the crystals could obtain a permanent memory.

Set the screen to turn off after a few minutes of idle time. Turning off the monitor display prevents images from appearing for extended periods. Setting the monitor to do this when the computer is idle for 15 to 30 minutes can make a difference. These values appear in the Mac Energy Saver settings or Windows Power Management.

Rotate any background images on the desktop. Background images are a common cause of image persistence. By switching backgrounds every day or every few days, you"ll reduce the risk of persistence.

Using these items can prevent the image persistence problem from cropping up on a monitor. If the monitor displays image persistence problems, here are a few steps that can be used to correct it:

Use a screen saver with a rotating image and run it for an extended period. The rotating color palette should remove the persistent image. Still, it could take a while to remove it.

Screen burn-in, image burn-in, or ghost image, is a permanent discoloration of areas on an electronic display such as a cathode ray tube (CRT) in an old computer monitor or television set. It is caused by cumulative non-uniform use of the screen.

One way to combat screen burn-in was the use of screensavers, which would move an image around to ensure that no one area of the screen remained illuminated for too long.

With phosphor-based electronic displays (for example CRT-type computer monitors, oscilloscope screens or plasma displays), non-uniform use of specific areas, such as prolonged display of non-moving images (text or graphics), repetitive contents in gaming graphics, or certain broadcasts with tickers and flags, can create a permanent ghost-like image of these objects or otherwise degrade image quality. This is because the phosphor compounds which emit light to produce images lose their luminance with use. This wear results in uneven light output over time, and in severe cases can create a ghost image of previous content. Even if ghost images are not recognizable, the effects of screen burn are an immediate and continual degradation of image quality.

The length of time required for noticeable screen burn to develop varies due to many factors, ranging from the quality of the phosphors employed, to the degree of non-uniformity of sub-pixel use. It can take as little as a few weeks for noticeable ghosting to set in, especially if the screen displays a certain image (example: a menu bar at the top or bottom of the screen) constantly and displays it continually over time. In the rare case when horizontal or vertical deflection circuits fail, all output energy is concentrated to a vertical or horizontal line on the display which causes almost instant screen burn.

Screen burn on an amber CRT computer monitor. Note that there are two separate burned-in images: one of a spreadsheet program, and another of an ASCII-art welcome screen.

Phosphor burn-in is particularly prevalent with monochromatic CRT screens, such as the amber or green monochrome monitors common on older computer systems and dumb terminal stations. This is partly because those screens displayed mostly non-moving images, and at one intensity: fully on. Yellow screens are more susceptible than either green or white screens because the yellow phosphor is less efficient and thus requires a higher beam current. Color screens, by contrast, use three separate phosphors (red, green, and blue), mixed in varying intensities to achieve specific colors, and in typical usage patterns such as "traditional" TV viewing (non-gaming, non-converged TV usage, non-Internet browsing, broadcasts without tickers or flags, no prolonged or permanent letterboxing) are used for operations where colors and on-screen object placement approach uniformity.

Modern CRT displays are less susceptible than older CRTs prior to the 1960s because they have a layer of aluminum behind the phosphor which offers some protection. The aluminum layer was provided to reflect more light from the phosphor towards the viewer. As a bonus, the aluminum layer also prevented ion burn of the phosphor and the ion trap, common to older monochrome televisions, was no longer required.

A nearly two-year-old LCD television showing extreme burn-in of CNN"s circa 2008 digital on-screen graphic; this television is in a McDonald"s restaurant where CNN is permanently turned on and displayed throughout the business day.

In the case of LCDs, the physics of burn-in are different than plasma and OLED, which develop burn-in from luminance degradation of the light-emitting pixels. For LCDs, burn-in develops in some cases because pixels permanently lose their ability to return to their relaxed state after a continued static use profile. In most typical usage profiles, this image persistence in LCD is only transient.

Both plasma-type and LCD-type displays exhibit a similar phenomenon called transient image persistence, which is similar to screen burn but is not permanent. In the case of plasma-type displays, transient image persistence is caused by charge build-up in the pixel cells (not cumulative luminance degradation as with burn-in), which can be seen sometimes when a bright image that was set against a dark background is replaced by a dark background only; this image retention is usually released once a typical-brightness image is displayed and does not inhibit the display"s typical viewing image quality.

Screensavers derive their name from their original purpose, which was an active method of attempting to stave off screen burn. By ensuring that no pixel or group of pixels was left displaying a static image for extended periods of time, phosphor luminosity was preserved. Modern screensavers can turn off the screen when not in use.

In many cases, the use of a screensaver is impractical. Most plasma-type display manufacturers include methods for reducing the rate of burn-in by moving the image slightly,Android Wear watches with OLED displays can request that Android Wear enable "burn protection techniques" that periodically shift the contents of the screen by a few pixels.

Other examples: Apple"s iPhone X and Samsung"s Galaxy series both mitigate or delay the onset of burn-in by shifting the pixels every minute or so for the battery, Wi-Fi, location, and service bars. Also, parallax scrolling may be enabled for the home screen to give icons a 3D-like effect, a setting Apple refers to as "perspective zoom". AG Neovo patented Anti-burn-in technology is also using pixel shifting to activate the pixels to move by the designed time interval to prevent burn in effect on LCD monitors.

Google requests that when these techniques are enabled, watch face developers do not use large blocks of pixels so that different pixels are burned in with each shift, reducing the overall wear of the pixels.

Some screensavers move around, such as those on DVD players or those on some television sets that move around paused video after a long period of inactivity.

Depending on the type of screen, it is sometimes possible to remedy screen burn-in through the use of remedial software and remedial devices. In the case of OLED screens on Android phones, burn-in reduction apps can display an inverted image of the navigation and status bars (which are constantly displayed and therefore the most likely elements to be burned in) to burn in opposite pattern, resulting in a screen whose sub-pixels have more even luminosity and therefore less visible burn-in artifacts.

The most prevalent burn-in image on early televisions was said to be that of the RCA Indian-head test pattern, which would often follow the formal television station sign-off. This was due to the viewer leaving the television set on at the end of the day, which was not recommended by the television manufacturers.

In the TV world, LG has a page that says "It is rare for an average TV consumer to create an environment that could result in burn-in." Nonetheless, stories of OLED burn-in don"t seem rare online, with owners on YouTube, forums and social media reporting the issue. Reviews site RTings has demonstrated burn-in on LG OLED TVs in long-term tests.

So if the fear of the mere possibility of burn-in is your primary concern, the decision is simple: Buy an LCD-based display instead. But know that you"re sacrificing the best picture quality that money can buy. Here are some points to keep in mind:

All things considered, burn-in shouldn"t be a problem for most people. That"s why we at CNET continue to recommend OLED-based TVs, phones and other devices in our reviews. From all of the evidence we"ve seen, burn-in is typically caused by leaving a single, static image element, like a channel logo, onscreen for a very long time, repeatedly.

If you, like most people, watch a variety of content on your TV, phone, or other device with an OLED screen, you"re not going to need to worry about burn-in.

What can you do to prevent burn-in on that new TV? As we mentioned, vary what you watch a bit. In particular, don"t watch something that has the same static areas displayed onscreen, nonstop for days on end.

The logos and news tickers on cable news channels are examples of those static areas -- they have elements that never move, and they remain on screen the entire time you"re watching. That means if you leave your TV running Fox News, CNN, MSNBC or ESPN all day long and don"t watch enough other programming, you"re more likely to get burn-in. Or at least, image retention, which we"ll discuss in a moment. If you play the same game for 8 hours a day, every day, the onscreen status display or HUD is also a likely culprit for burn-in.

To repeat, you can watch those channels, play games or whatever else to use your TV as a TV, your phone as a phone, etc. You just shouldn"t watch only those channels, all day every day. And if that sounds extreme, know that emails I"ve gotten from readers about burn-in always have some variation on "well I only watched that channel for 5 hours a day." If that sounds like you, get an LCD.

As long as you vary what"s displayed, chances are you"ll never experience burn-in. That varied content will age your screen evenly. So in a 24-hour period you watch a movie, play some games, binge some TV shows, they"re all varied enough that you should be fine.

The RTings torture test we mentioned above lasted the equivalent of 5 years of use and they still say "Our stance remains the same, we don"t expect most people who watch varied content without static areas to experience burn-in issues with an OLED TV."

We"ve designed the OLED screen to aim for longevity as much as possible, but OLED displays can experience image retention if subjected to static visuals over a long period of time. However, users can take preventative measures to preserve the screen [by] utilizing features included in the Nintendo Switch systems by default, such as auto-brightness function to prevent the screen from getting too bright, and the auto-sleep function to go into "auto sleep" mode after short periods of time.

Which is to say, Nintendo is fully aware of this potential and took steps to minimize the risk. Also, despite many games having static HUDs, you"d need to play just that one game, for hours upon hours, every day without ever using the screen for anything else, at the highest brightness settings.

Let"s get the descriptions right. Though often used interchangeably, "image retention" and "burn-in" are not the same thing.Image retention is temporary: It goes away in time.

Image retention occurs when parts of an image temporarily "stick" on the screen after that image is gone. Let"s say for an hour you"re looking at a still picture of a white puppy (hey, you do you, we won"t judge). Then you decide to watch a movie. Let"s say Best in Show because you"re keeping with your theme. But as you"re watching you can still see the white puppy image, as if it"s a ghost on the screen, staring at your soul.

You"re not crazy, probably. That"s just an extreme case of image retention. Chances are it will go away on its own as you watch stuff that isn"t the same still image of the puppy.Here"s a section of a 2018 LG C8 OLED TV screen displaying a gray test pattern after 5 hours watching CNN on the brightest (Vivid) mode. They"re the same image, but we"ve circled the section with the logo on the right to highlight it. To see it better, turn up the brightness. In person, it"s more visible in a dark room, but much less visible with moving images as opposed to a test pattern. Since it disappeared after running LG"s Pixel Refresher (see below), this is an example of image retention and not burn-in.Sarah Tew/CNET

Now imagine you leave your TV on for days or weeks instead of hours, showing the same image the whole time. Then you might be in trouble. With image retention, usually just watching something else for a while will make the ghost image disappear. With burn-in, it"s going to remain there for a while. Maybe not forever, but perhaps longer than you"d want.

This is an extreme case, largely just to illustrate what happens. In reality, it"s going to be far more subtle. Watch a lot of the same TV news station, like CNN in the example above? Not sure how your heart can handle that, but let"s say you do. That station"s identifying logo is a prime candidate for image retention and eventually burn-in. Ditto the horizontal borders of the "crawl" on the bottom of the screen.

If you play the same video game for hours and days on end, that game"s persistent scoreboard or heads-up display might burn in. Basically, anything that stays on screen for a long time and doesn"t change can cause image retention and perhaps, eventually, burn-in.

Apple, for one, flags users of OLED-screened iPhones, like the X, 11 and 12, that burn-in is a possibility. Here"s the quote from its support page for the products:With extended long-term use, OLED displays can also show slight visual changes. This is also expected behavior and can include "image persistence" or "burn-in," where the display shows a faint remnant of an image even after a new image appears on the screen. This can occur in more extreme cases such as when the same high contrast image is continuously displayed for prolonged periods of time. We"ve engineered the Super Retina and Super Retina XDR displays to be the best in the industry in reducing the effects of OLED "burn-in."

What"s colloquially called "burn-in" is actually, with OLED, uneven aging. They don"t "burn in" as much as they "burn down." The candle that burns twice as bright burns half as long, right? OLED pixels very, very slowly get dimmer as they"re used. In most cases this isn"t an issue since you"re watching varied content and all the pixels, on average, get used the same amount. But if you"re only watching one thing, that one thing could cause uneven wear. Visually, and in the vernacular, this wear is called "burn-in." Uneven wear is more accurate, but also a lot more syllables.

Also, OLED technology has gotten better. Billions of dollars have been spent on OLED manufacturing and R&D, and that"s ongoing. So stories you may have heard about "burn-in" likely entered the zeitgeist years ago about older OLED displays. You just don"t hear about newer OLEDs having these issues except in extreme situations like those discussed above. You"d likely hear a LOT more stories about OLED now that the two largest phone manufacturers, and many smaller ones, use OLEDs in millions of phones and have for years.

In their warranties, LG and Sony explicitly state that image retention and burn-in are not covered on their OLED TVs. When CNET reached out to LG a couple to ask why, a representative replied:

"There is generally no warranty coverage for image retention by TV companies and display manufacturers. Image retention may result when consumers are out of normal viewing conditions, and most manufacturers do not support warranty for such usage regardless of the type of display," said Tim Alessi, director of new products at LG.

Sony"s reply was similar: "Our warranty covers product and manufacturing defects. Burn-in is not covered as it is caused by consumer usage and is not a product defect."

Neither the iPhone warranty nor AppleCare explicitly mention burn-in, but neither apply to "normal wear and tear," and Apple"s support page above makes clear that it considers burn-in "expected."

When CNET reached out to Samsung for details, the representative defined "normal consumer use" as "use of the product by consumers in a home environment for viewing content and/or gaming in a typical manner. It doesn"t cover business use." In other words, those ESPN logos you see burned into the screens at your local sports bar would not be covered.

Extended warranties don"t typically cover burn-in either. One of the most common, SquareTrade, is available from Amazon, Walmart, and others. They explicitly don"t cover burn-in. However, Best Buy"s Geek Squad Protection Plan might, depending on when you bought it. The latest version only explicitly covers burn-in on phones.

"To avoid the possibility of burn-in, consumers should avoid leaving static images on an OLED screen for long periods of time. For example, leaving a video game paused onscreen for several hours or days," a Sony spokesperson said.

If you notice image retention, don"t panic. Chances are if you watch something different, it will go away on its own after a while. If you"re repeatedly getting image retention of the same thing, then that could be cause for concern.

Pretty much all OLED TVs also have user settings to minimize the chance of uneven wear or burn-in. One is called something like "Screen Shift" (on LGs) or "Pixel Shift" (on Sonys), which moves the image slightly around the screen. They also have built-in screensavers that pop up after extended idle time. You should also enable screen savers on connected devices like game consoles and streamers.

To remove image retention, the TVs can also perform "refreshers" on a daily or longer-term basis. On Sony TVs the feature is called "Panel Refresh," and LG calls it "Pixel Refresher." It can be run manually if you notice image retention or, in the case of LG, you"ll get a reminder to run it after 2,000 hours.

LG also has a Daily Pixel Refresher, which it says "automatically operates when users turn off the TV after watching it for more than four hours in total. For example, if a user watched TV for two hours yesterday and three hours today (more than four hours in total), when powered off the Daily Pixel Refresher will automatically run, deal with potential image retention issues, and reset the operation time. This process will occur when the TV is powered off after every four hours of cumulative use, even if it"s in one sitting."

When it comes to phones I wouldn"t be too concerned, since it"s likely you"ll replace the phone far sooner than any image retention/burn-in issues become bothersome. Regarding my aforementioned S6 Edge, even though I noticed it, I wouldn"t say the burn-in reduced my enjoyment of the phone. I was never watching a video and thinking, "Wow, I can"t enjoy this video because of the burn-in." Since the phone was in use by its second owner twice as long as I had it, and was only let down by its battery, burn-in clearly wasn"t a dealbreaker. My friend replaced it with a Pixel 4a, which also has an OLED screen. So even after 4 years with that screen he still preferred to get a phone with OLED.

With TVs, beyond the methods outlined above, there"s not much you can do to reverse burn-in. In theory, I suppose, you could create an inverse image using Photoshop and run that on your screen for a while. This could age the rest of the panel to more evenly match the "burned in" area. Figuring out how to do this is well beyond the scope of this article, and you"d need to be pretty well versed in Photoshop to even attempt it.

CNET has not conducted any long-term real-world tests of OLED burn-in. In our experience reviewing TVs, we have seen image retention on OLEDs that disappeared quickly, for example after running a series of static test patterns, but nothing permanent.

The most comprehensive independent tests for burn-in on TVs was run by the aforementioned review site RTings. In August 2017 they began a burn-in torture test with LCD and OLED TVs, followed by a "real life" torture test in 2018. They stopped regularly updating the test in 2020, but that was after the equivalent of 5 years of normal use on multiple TVs, and still they felt that most people will never have an issue with burn-in.

Before you check it out, keep in mind what they"re doing is not normal use. You"d have to be trying to wreck a TV to make it look that bad, which is literally what they"re trying to do. That said, the information is still valuable, and the main takeaway is that OLED is indeed more susceptible to burn-in than LCD.

You"ve noticed a ghostly image on your TV or phone screen. If it goes away after a few minutes of watching something else, it"s image retention and it"s probably nothing to worry about. If it "sticks" longer, or you"re repeatedly seeing that same residual image, it"s burn-in. With phones, you"ll likely replace it before the screen becomes an issue.

With OLED TVs, it"s something to keep in mind if you"re a TV news junkie, or only ever play one video game. Keep an eye out for image retention or uneven wear. If you spot it, perhaps switch up your viewing habits, adjust the TV"s settings, or run the pixel refresher a few times. And if you watch content with hours of the same static image each day, or just keep CNN, Fox or CNBC on in the background all day, you should probably get an LCD TV.

If you vary your TV viewing habits like most people, however, it won"t be an issue. Even so, caveat emptor. Or as Caesar himself once said, "Conscientiam autem ardeat sed non anxius" (be aware of burn-in, but not concerned). He was, we hear, a big iPhone fan.

You can follow his exploits on Instagram and his travel video series on YouTube. He also wrote a bestselling sci-fi novel about city-size submarines, along with a sequel.

Screen burn, a term derived from old CRT (cathode-ray tube) technology — and the reason for a vast industry of decorative screen savers — describes the phenomenon of image retention, otherwise known as persistence, ghost images, blurred images, artifacts, or after-images that linger on your smartphone screen after the original image is long gone. These can mar screen readability and coloration over time and can diminish your smartphone experience.

On mobile devices, screen burn is identified most often on AMOLED or OLED screens, and even then, it’s pretty rare on newer smartphones. It happens when users leave an image on their screen for too long, causing the pixels to struggle when switching to a different color. This may happen more easily with blue colors, but can occur with any image that’s left on screen too long, especially in the brightest setting. Screen burn also may be permanent and considered a display hardware defect as opposed to a software graphics or display driver issue. For screen burn on your mobile devices, there are a few things you can do to fix the issue and, even better, prevent it from happening. Here are a few simple steps you can take.

This is the simplest solution and is frequently effective, especially when you catch image retention early on and want to fix it fast. Turn your phone off entirely, powering it down fully, and let it rest for a couple of hours. If the screen burn issue is minor, this gives the pixels enough time to recover, diminishing after-images, so your phone screen will look fresh when you power back on. This is one advantage of the versatile organic pixel layer used in OLED-based screens, which can correct itself more easily than pixels of the past.

If turning your mobile device off for a while doesn’t fully resolve your issue, a good next option to try is re-training the pixels on your screen to get them back into balance. The good news is, there are apps for that. For Android devices, the Google Play Store has a robustcollection of screen correctors and testersincludingOLED Saver. If you have an iOS device, then you can use an app likeDoctor OLED X instead. This app cycles your pixels through multiple colors and brightness levels, working towards resetting them.

If you don’t want to download an app, you can try checking out theScreenBurnFixerwebsite. It features a collection of videos with color slides and checkered patterns designed to help get your pixels back on track. Run a few of these and see if they fix your pixel problem.

You can be proactive about avoiding or mitigating screen burns on your mobile hardware by modifying various settings you might not have realized could help you. Make sure you are following guidelines like these:

Lower brightness settings:The higher the brightness setting, the harder your OLED pixels have to work, which can cause screen burn. If your mobile device is permanently set on a higher brightness, switch it to auto-brightness or a lower brightness level to prevent problems. For iOS 14, go toSettings > Display & Brightnessand toggle on theAutomaticsetting. TheOptions, True Tone,andNight Shiftsettings also help to modulate excessive brightness and prevent burn-in. On Android, go toSettings > Display > Brightness slideror toggle onAutoto automatically adjust brightness.

Set lock screen and sleep timers:Smartphones come equipped with automatic timers for locking and going into sleep mode, both of which turn off the screen after it hasn’t been used in a while. Make sure these settings are turned on and set to a minute or so. If you haven’t looked at your phone in one minute, it’s probably fine for it to shut off the screen and lock. This essentially prevents image retention because the screen won’t stay on long enough for it to happen. For iOS 14, go toSettings > Display & Brightness >Auto-Lockand choose which time interval you want. On Android 10, go toSettings > Display > Screen timeoutand choose the interval you want.

Get rid of menu, status, and navigation bars:Image retention can happen when you are actively using an app that has a permanent bar for tools or notifications, like when you’re playing a game or watching a movie, for example. When these bars don’t disappear, they cause screen burn after long sessions. Look for options to hide these icons and tools after a moment so they aren’t always present. Immersive modes for your mobile OS will also do this.

Enable dark mode:While it’s not a guarantee against image retention, using dark mode on your mobile device can help reduce the risk, particularly when it comes to overusing brightness levels. You can also try choosing dark keyboard skins. Enable Dark mode in iOS 14 withSettings > Display & Brightness > Darkor use theOptionsfeature to set a timer. On Android, go toSettings > Display > Night modeorComfort viewor set a schedule for either feature.

Screen burn can also become a problem on LCD mobile screens. While this may be a rare occurrence, it’s not impossible either. When it does, fixing it is a lot more of a challenge, since LCD pixels work differently from OLED screens. Therefore, you might have to accept that screen burns on your LCD screen are most likely there to stay. But before you give upall hope, you should still tryusing LCD Burn-In Wiper, whichcycles colors similar to its OLED counterpart to try to repair pixels.

Your last resort after failing to rectify screen burns with the previously mentioned methods would be to see if your device is under warranty so that you can switch out your screen or have it repaired by a professional.

OLED technology gives a gorgeous picture, but it isn’t perfect. With each pixel emitting its own light, it can wear out at different rates. For example, if a particular area is lit in bright white a lot more than the rest of the display for extended periods of time, that area’s peak brightness may not be the same a few years later. This effect also translates to the sub-pixels, where if one color is used excessively compared to the others, a color shift may occur on that particular spot years down the line.

This effect is called burn-in, and although it’s far from as severe as it used to be on plasma TVs and, before that, CRT displays, it’s still something to keep in mind. If you own an OLED panel or are contemplating purchasing one, you’ll want to protect your investment and make it last for years to come. Let’s dig into a few tricks you can use to manage the effect.

The good news is that there are already a lot of technologies in place to mitigate the problem, and for the most part, it’s not something you need to worry all that much about. But there are a few caveats to keep in mind, especially with the type of content you put on display.

In today’s world, OLED panels mostly show up in premium smartphones and high-end televisions, while PC monitors rarely get any OLED love at all. OLED burn-in is as much a phenomenon on mobile phones as it is on televisions. That’s less of a problem, as once it becomes noticeable, the handset is generally already in need of a replacement for other reasons.

But televisions have a much longer useful lifetime, with the average owner keeping theirs for seven to 10 years. This makes it worthwhile to manage the way you use it in order to maintain an optimal viewing experience well past the television’s warranty period.

LG is currently the biggest manufacturer of OLED panels, and the company has developed a handful of technologies to manage burn-in. However, these are the two best things you can do to manage burn-in yourself: Don’t have the TV on the same channel all day long, every day, and reduce its brightness.

Channel-hopping makes the biggest difference. The way that many TV channels have the broadcaster’s logo in one of the corners can do a number on burn-in, and while short individual viewing sessions of up to a few hours on occasion won’t make any discernable difference, years of watching only the same channel for numerous hours a day does. The same goes for certain types of content: Sports often have a point count somewhere on-screen that stays in the same spot, and even watching the news channel all day can cause a human silhouette in color shift to show up at the center because of the news anchor.

LG’s TVs do a few things to manage burn-in, and enabling those settings can go a long way to mitigate the effects of burn-in. There’s a Pixel Shift feature, which shifts the entire image around a bit to smear out the effects from static objects like logos, point counters, and headline banners.

The TVs are also able to tell when static objects remain at high brightness for extended periods of time, reducing the peak brightness of that specific spot to minimize the damage. They also have screensavers that can come on a minute after pausing the content when using the built-in WebOS interface.

Moreover, LG’s TVs also have a Pixel Refresher feature that keeps track of the luminosity hours run by areas of its panel, and with that information, they occasionally run an invisible maintenance cycle to equalize the wear across the panel when not in use.

Keep in mind that LG’s Pixel Refresher doesn’t store the data in non-volatile memory, so every time you unplug the TV, the usage from the last few days is forgotten, and it won’t be able to do its job properly when plugged in again. So, do run the Pixel Refresher manually before unplugging the TV to move it — and know that forgetting it once a while won’t do much significant harm; just don’t make a habit of it. This also means that you should not unplug the TV at night when not in use to save power, as this prevents the Pixel Refresher from running at all.

The combination of all these features, along with keeping usage patterns in mind, can work together to make burn-in a non-issue. However, as the user, you should make sure all these features are enabled and running — some may not be enabled straight from the factory.

We understand that using an OLED screen as a huge PC monitor or having a PC installed as a gaming PC in the living room is tempting, especially given the lack of OLED PC gaming monitors, but in such use cases, you should take extra precautions. Computers often have a lot of static objects on display, and although gaming generally isn’t too big a deal (unless you only ever play one game with a static HUD), desktop use can wear an OLED panel out prematurely.

These precautions include removing desktop icons, setting the taskbar to auto-hide, setting a screensaver (because over HDMI inputs, most OLED TVs don’t auto-activate their own built-in screensaver like they do when using the built-in apps), and having a wallpaper slideshow with some variety and consistent brightness levels per wallpaper. Lastly, it’s best to avoid always keeping specific windows in the same spot every time.

Accidental Damage is any damage due to an unintentional act that is not the direct result of a manufacturing defect or failure. Accidental damage is not covered under the standard warranty of the product. Such damage is often the result of a drop or an impact on the LCD screen or any other part of the product which may render the device non-functional. Such types of damage are only covered under an Accidental Damage service offering which is an optional add-on to the basic warranty of the product. Accidental Damage must not be confused with an occasional dead or stuck pixel on the LCD panel. For more information about dead or stuck pixels, see the Dell Display Pixel Guidelines.

No, accidental damage is covered for Dell computers or monitors which are covered under the Accidental Damage Service offering for that specific product.

For more information about Dell Limited Hardware Warranty and Dell"s Accidental Damage service offering, see the Dell Warranty & Support Services page.

NOTE: Other damages may be considered customer induced if determined by Dell Technical Support, an on-site field engineer, or at the mail-in repair center.

The LCD glass on the display is manufactured to rigorous specifications and standards and will not typically crack or break on its own under normal use. In general, cracked, or broken glass is considered accidental damage and is not covered under the standard warranty.

Internal cracks typically occur due to excessive force on the screen. This can be the result of some object hitting the screen, a drop, attempting to close the lid while an object is on the keypad area, or even holding the laptop by its screen.

Spots typically occur due to an external force hitting the screen causing damage to the LCD panel"s backlight assembly. While the top layer did not crack or break, the underlying area was compressed and damaged causing this effect.

If your Dell laptop LCD panel has any accidental damage but the laptop is not covered by the Accidental Damage service offering, contact Dell Technical Support for repair options.

Dell monitors cannot be repaired by an on-site field engineer or at the mail-in repair center. If you notice any damage to the monitor, you must purchase a new monitor.

Laptop users can strive to make the most of their laptops to maximize stability, longevity, and usability. Understanding and implementing a few best practices for the safe handling of their laptop will enable them to enjoy their laptop for many years to come. For more information, see the Dell knowledge base article Dell Laptop Best Practices for Care, Use, and Handling.

Screen burn, also called screen burn-in, ghost image, or display burns are images or icons that are displayed on a screen when they should not be there. Screen burn comes on gradually and gets worse over time and is most common on OLED screens. The navigation bar, the top status bar, or home screen apps are frequent images that get  “burned” into the display.

1. You aren’t looking at your phone screen with a white display. Screen burn is easiest to notice on an all-white or blank screen with no icons on it. And it is rare that your phone will display an all-white screen. This is why SmartphonesPLUS uses industry-leading phone diagnosis software and other tools that allow us to see phone screens on an all-white screen, along with other tests, to examine each phone we receive thoroughly.

2. You do not change your home screen layout or background image. You look at the same phone, with the same background every day, and can’t notice the screen burn because the icons and apps on the phone are always in the same position. It is much easier to notice screen burn when you shift the layout of icons and apps on your home screen.

Here’s an example we think relates to screen burn to help explain why it’s not as noticeable: when you see a person every day that is losing weight you don’t notice how much weight they lost, but if you saw a person you haven’t seen in over a year that lost 50 pounds you would notice right away. In the same way, your eyes and mind adjust to the screen burn as it gradually burns into the display over months or years.

Screen burn is caused by pixels displaying the same image or icon for an extended period of time. Static images such as apps, navigation bars, and keyboards can deteriorate pixels in the display from overuse. This causes these over-used pixels to look darker in color than others around them. Certain areas of the screen like status bars are more susceptible to screen burn as they are constantly displaying the same image.

As you can tell from the photos, screen burn can make the display look discolored with darker pink or gray hues. Because of its gradual onset, many users don’t even realize their display has screen burn. If you would like to check for screen burn on your phone, put your phone on a white screen. A white screen will provide contrast making the discolored pixels more noticeable.

You can avoid the deterioration of pixels by changing the image that your device displays. Try to change the positions of apps and backgrounds periodically.

Lowering the brightness will lengthen the life of the pixels in your display. Keeping the brightness as low as possible will ensure that screen burn won’t happen as quickly.

Avoid screen savers when your screen times out as they are generally static images that are displayed for a long period of time. Screen savers will cause the pixels of your display to be overworked when you are not even using your device. If you have a phone that uses always on display, make sure to turn this off to prolong the life of your screen’s pixels.

There are some apps and videos out there that claim they can fix screen burn, however, the results tend to be insignificant as it is a hardware issue of the display. The only way to truly fix screen burn is to replace the entire display of the phone. If you’d like to speak with a technician to see the cost of replacing a screen you can make an appointment or contact us.

Most modern computer monitors, and even televisions, have an edge-lit LCD display that’s fundamentally similar to the first such displays sold decades ago, but that’s not where the future is headed. The twin threats of Mini-LED and OLED want to conquer the world of PC displays for themselves.

Which will win, and where is the future headed? I spoke with Ross Young, CEO of Display Supply Chain Consultants, and David Wyatt, CTO of Pixel Display (and inventor of Nvidia G-Sync), for the inside scoop.

Modern OLED displays rarely exceed 1,000 nits of brightness, and when they do, are incapable of sustaining it. LG’s C9 OLED television, for example, can’t sustain a peak brightness above 160 nits (according to testing by Rtings). Mini-LED displays like Apple’s Liquid Retina XDR, Samsung’s Odyssey Neo G9, and Samsung’s QN90A television can hit peak brightness well above 1,000 nits and sustain at least 600 nits.

Wyatt points to this as a key advantage. The best HDR standards call for up to 10,000 nits of brightness. Current consumer Mini-LED displays don’t achieve this, but it’s possible future displays will.

And Micro-LED, which uses individual LEDs as per-pixel lighting elements, can reach even greater heights. Wyatt says his company’s VividColor NanoBright technology will be capable of reaching up to one million nits.

Such brightness is not necessary for computer monitors or home televisions and instead targets demanding niche components, such as avionics displays. Still, it hints that we’ve only seen a sliver of HDR’s real potential – and that Mini-LED and Micro-LED, not OLED, will lead the charge.

OLED’s greatest strength is the opposite of Mini-LED’s incredible brightness. The self-emissive nature of OLED means each pixel can be turned on or off individually, providing a deep, inky, perfect black level.

“Mini-LED has clear advantages in sources of supply and brightness,” Young said in an email, “but OLEDs have advantages in regards to contrast, particularly off-axis contrast, response times, and no halo effect.” The “halo effect,” also known as blooming, is the halo of luminance that often surrounds bright objects on a Mini-LED display.

The advantages of OLED add up to superior contrast and depth. You’ve likely noticed this when viewing an OLED television at your local retailer. High-quality content has an almost three-dimensional look, as if the display is not a flat panel but a window into another world.

Modern Mini-LED displays often claim to rival OLED. Apple’s Liquid Retina Display XDR, for example, lists a maximum contrast ratio of 1,000,000:1. In reality, Mini-LED still noticeably lags the contrast performance of OLED because it can’t light pixels individually. This will remain true at least until Micro-LED, which can light pixels in