lcd screen dead pixel brands

That annoying dead pixel on your TFT, OLED, or LCD screen might just be stuck and easy to fix. We"ll show you how to do it. You can still return your monitor if this doesn"t work; nothing we recommend here will void your warranty.

Yes, you should test any new monitor for bad pixels. You can simply run your screen through a palette of basic colors, as well as black and white in full-screen mode using a tool like EIZO Monitor Test.

EIZO Monitor Test is an online tool that lets you find and eventually fix stuck pixels. It packs many options into a single test window, but it"s easy to use once you have an overview.

To test your screen, check all the boxes you want to include in your test. We recommend the default setting of having all boxes checked. If you"re testing multiple monitors, you can open the test on an additional monitor. When you"re ready, click Start test to launch the full-screen test window.

Below you see the first test pattern. Each screen has an explainer in the bottom right detailing what you should look for. Next, you"ll see a menu that lets you go from one test to the next on the left. Move through the black and white screens and all the solid colors (green, blue, and red) and check our screen. To exit, press the ESC key or the exit symbol in the top right.

This is a very thorough test not only meant to identify bad pixels but also powerful enough to test the quality of your monitor. Unfortunately, with Flash no longer supported by most browsers, you"ll probably have to use the executable version to make it work.

Fingers crossed, you won"t discover anything out of the ordinary. In the unfortunate case that you do, let"s see whether it"s a stuck or a dead pixel and what you can do about it.

A stuck pixel, sometimes wrongfully referred to as a hot pixel, is defective because it receives incomplete information. Hence, it appears in one of the colors that its three sub-pixels can form, i.e., red, green, or blue. Strictly speaking, hot pixels only appear in digital cameras when electrical charges leak into the camera"s sensor wells. Sometimes, stuck pixels fix themselves.

In a dead pixel, all sub-pixels are permanently off, which will make the pixel appear black. The cause could be a broken transistor. In rare cases, however, even a black pixel may just be stuck.

Unfortunately, you can"t fix a dead pixel. You can, however, fix a stuck pixel. As I explained above, it"s hard to tell the two apart. Either way, these are the methods you can try:

Finally, you can try a manual method that involves rubbing the stuck pixel with a damp cloth or a pointy but soft item, like the rubber/eraser at the end of a pencil.

The tool will load a black browser window with a square of flashing pixels. Press the green button in the bottom right to go full-screen. Drag the flashing square to where you found the stuck pixel and leave it there for at least 10 minutes.

UDPixel, also known as UndeadPixel, is a Windows tool. It can help you identify and fix pixels using a single tool. The program requires the Microsoft .NET Framework. If you"re not on Windows or don"t want to install any software, scroll down for the online tools below.

Should you spot a suspicious pixel, switch to the Undead pixel side of things, create sufficient amounts of flash windows (one per stuck pixel), and hit Start. You can drag the tiny flashing windows to where you found odd pixels.

The PixelHealer lets you flash a combination of black, white, all basic colors, and a custom color in a draggable window with customizable size. You can even change the flashing interval and set a timer to close the app automatically.

Let it run through all colors in Auto mode to spot whether you have any weird pixels on your screen. If you do, start the fix, which will rapidly flash your entire screen with black, white, and basic color pixels.

Should none of these tools resolve your stuck or dead pixel issue, here is one last chance. You can combine any of the tools detailed above and the magic power of your own hands. There is a very good description of all available techniques on wikiHow. Another great step-by-step guide can be found on Instructables.

This works because, in a stuck pixel, the liquid in one or more of its sub-pixels has not spread equally. When your screen"s backlight turns on, different amounts of liquid pass through the pixel to create different colors. When you apply pressure, you"re forcing the liquid out, and when you release the pressure, chances are the liquid will push in, spreading around evenly as it should.

When all attempts to revive your bad pixel fail, the next best thing you can do is to make peace with it. One ugly pixel won"t break your screen, and eventually, you"ll forget about it. If the defect affects more than a single pixel, however, or just bothers you a lot, you can always replace your monitor.

First, check the warranty. The manufacturer or the marketplace where you purchased the monitor might cover dead pixels. Note that most manufacturers define a maximum number of allowable bad pixels for specific resolutions, and the warranty won"t apply until your monitor crosses that threshold.

Bright or dark sub-pixels can occur during the production of the LCD Monitor panel but does not affect the LCD Monitor functionality. The customer may notice the bright or dark spots if the film of the liquid crystal does not perform as expected while customers uses the LCD monitor. However, this is not considered a defect unless the number of bright and dark subpixels exceeds the maximum allowable threshold (...)

On a monitor with over 12 million pixels (Wide QXGA+, 2560x1600 pixels), for example, LG"s pixel policy says that 12 bright or dark sub-pixels is the maximum you have to tolerate.

Should all of these approaches fail to fix your dead pixel warrior, at least you"ll now know it"s not simple to fix, and, you might actually have to replace the screen.

So you"ve just noticed that your monitor has a little black dot on it even when it"s turned on. Someone says that it"s a dead pixel, but what exactly does that mean, and why has it happened? First, we"ll explain exactly what a dead pixel is, so you know how to avoid them in the future.

A dead pixel is a name for a mechanical fault that can develop on TVs and monitors. For example, if you notice a small black dot on your TV or monitor screen, then you"ve found a dead pixel. This happens because power is no longer going to that pixel in question. As power is required for a pixel to show colors (even white), that pixel displays as black like it does when your display isn"t powered on at all.

A dead pixel on a brand-new display is a sign of manufacturer fault most of the time. In most cases, you can avoid these kinds of dead pixels by ensuring you"re buying a screen from a trusted brand. Cheap, low-quality displays are much more likely to have a dead pixel problem from the factory.

If your screen develops a dead pixel well after you bought it, it"s likely because of physical damage to the screen. If a display is hit or knocked, it can cause something to break internally that stops power from getting to a certain part of your screen. A good way to avoid dead pixels is to ensure that you"re always careful around your electronics and don"t accidentally hit the screen.

While it may only be small comfort, at least you know exactly what is going on with that small black dot on your display now. But, of course, knowing what a dead pixel is and knowing how to fix them are completely separate matters.

A dead pixel can be a huge pain, whether it"s on your smartphone, desktop monitor, or laptop. Fortunately, even though a dead pixel isn"t a great sign of monitor health, there are ways you can sometimes bring that pixel back to life.

If your device is no longer under warranty or you don’t want to take it to a professional, don’t despair. Here"s how to fix a dead pixel in just a few steps.

Step 3: Let the JScreenFix app run for at least 30 minutes. Drag the white noise window to where your stuck or dead pixel is located, and then let it run for half an hour. JScreenFix claims it can repair most stuck pixels in under 10 minutes, but giving it plenty of time to work never hurts. Try using it several times if the first run wasn’t successful.

Keep in mind that this method uses both HTML5 and JavaScript and may work with LCD or OLED screens. If it doesn’t work, though, you could always try one of the platform-specific tools below.

PixelHealer is an entirely free application from Aurelitec that fixes pixel problems. It’s compatible with Windows 7, 8, 10, and 11. Once downloaded, PixelHealer will present you with a colored box window and a settings menu. It is important to note, though, that users who are sensitive to flashing images should not look directly at the box/app window, because as the app runs, the window will then flash multiple colors in quick succession.

PixelHealer is more likely to work on a stuck pixel that shows signs of life than a dead pixel, which may stay unresponsive, but there’s a chance it can fix both, so give this dead pixel fix a try regardless of how your wounded pixel is behaving.

With such a straightforward name, you know that Dead Pixels Test and Fix (DPTF) is a quick and easy dead pixel fix for locating and potentially repairing dead or stuck pixels. It’s a free app and features an interface that is both self-explanatory and easy to navigate. DPTF assumes the same process as its competitor apps, using a series of solid color blank-outs on your screen to reveal damaged pixels.

The developers recommend that you let DPTF run for at least 10 minutes to fix all of the pixels, but we had better results when we left it running for a couple of hours so it had time to fix all of the dead pixels. You’re going to need to have a full battery or your device connected to a power source while you execute this tool.

The first thing you do when you purchase a new smartphone, laptop or LCD TV monitor is to check for dead pixels. More often than not, if you purchase a branded product such as Dell Monitor or Asus Laptop or Samsung Smartphone, you are guaranteed a 1 for 1 exchange during the warranty period. This cannot be said if the said item is of generic brand. Without further ado, here are 6 free tools to detect and fix dead or stuck pixels.

A stuck pixel is a bright dot of colour that fails to update when neighbouring pixels change. Stuck pixels are most noticeable when the rest of the screen is black. Stuck pixels are different from dead pixels. A stuck pixel is a single color – red, green, or blue – all of the time. A dead pixel is black instead. While it’s often possible to “unstick” a stuck pixel, it’s much less likely that a dead pixel will be fixed. While a dead pixel may simply be stuck at black, it’s possible that the pixel isn’t receiving power at all. A faulty pixel displaying the color white all of the time is known as a “hot pixel.”

DeadPix is an application that can help you fix pixels that are stuck on your screen. You can download the installer or download the portable version below. It’s also completely free! It can fix stuck pixels by rapidly cycling the color value of the stuck pixel. Please note that this tool does not provide a 100% success rate.

InjuredPixels allows you to easily check for defective (hot, dead or stuck) pixels on LCD monitors. InjuredPixels can be used to test a new LCD monitor before purchasing, or an already purchased monitor during the warranty period (as you may get a replacement according to the manufacturer’s dead pixel policy). InjuredPixels fills the entire screen with a primary or custom color, helping you to easily spot pixels that do not match the selected color.

You can easily cycle through colors, and clean or gently rub any area while testing. InjuredPixels is completely free, open source, doesn’t show ads, and requires no Internet and no extra permissions whatsoever. The program is easy to use: click or use the arrow keys to cycle through colors or right-click to get the menu with the main commands. InjuredPixels can be run directly without having to install it on your computer: just download the portable version and run.

Try to fix dead, stuck or hot pixels by yourself, before running back to the store! PixelHealer can help you try to fix dead pixels by yourself, before running back to the store! You can use it to fix dead, stuck or hot pixels on LCD or TFT screens, on desktop monitors, laptops or tablets.

PixelHealer uses the already tested concept that flashing RGB colors over a dead or stuck pixel will revive it. So let the repair window run for a while, then check to see if the dead pixel has been fixed or revived. And repeat the process if necessary.

The JScreenFix pixel fixing algorithm has been applied to over four million screens and is the most effective software solution available for repairing defective pixels. JScreenFix is a web app that’s very similar to PixelHealer, except that you don’t need to download anything to use it. That makes it suitable for a wide variety of platforms, and it’s notably the best solution for iOS and Mac devices at the moment. Works great on Microsoft’s Windows 10 and Apple’s macOS.Fixes most screens – Suitable for LCD and OLED. >60% success rate.

This is a simple test designed to make it easier to detect LCD “dead pixels” (pixels that are either stuck-ON or stuck-OFF) by displaying a series of solid background color pages for contrast.

Have dead or stuck pixels on your laptop screen or retina display? Keep replaying this video until the dead pixel or stuck pixel has been repaired/unstuck. This video fixed the stuck pixels on my Macbook Pro’s Retina display (UHD 4K), Though be warned it can take hours depending on the pixel.

If this method doesn’t work for you, Google the pen tip pixel method or contact the manufacturer of your display. This video should also work on smartphones, iPhone, iPad and tablets! Seizure warning – Do not watch the screen! Turn the screen away from you if possible and allow the video to run to the end, repeat the video if necessary.

Pixel combines two words, ‘ pix’ (picture) and ‘el’ (elements). Pixels can be referred to as ‘dots’ or squares, and these are the basic building blocks of a digital image. When lots of these tiny dots/squares are put together, they form a digital image. Every single pixel has three sub-pixels in red, green, and blue color. Transistors carry electric current to the sub-pixels; this current is why the change of color changes in pixels.

Pixels compose the images displayed on the computer screen, television, laptop, video games, smartphones, and the list goes on. A pixel is the smallest controllable element of an image or display that a computer can print or display.

EIZO Monitor Test is an online tool that lets you find and eventually fix stuck pixels. It packs many options into a single test window, but it’s easy to use once you have an overview. To test your screen, check all the boxes you want to include in your test. We recommend the default setting of having all boxes checked. If you’re testing multiple monitors, you can open the test on an additional monitor. When you’re ready, click Start test to launch the full-screen test window.

Click anywhere on screen to change the background color (red, green, blue, black and white) in order to identify the precise location of the pixel asleep, then drag the square from the center of the screen towards the area of the defective pixel and press it to start the flashing that will attempt to awake the pixel: it needs no more than 20 minutes to recover dead pixels, otherwise hardly be able to fix it.

UDPixel, also known as UndeadPixel, is a Windows tool. It can help you identify and fix pixels using a single tool. The program requires the Microsoft .NET Framework. If you’re not on Windows or don’t want to install any software, scroll down for the online tools below. You can fix the stuck pixels by calling them to do rapid changes. You need to run this program for a couple of hours. There is no warranty on the result, but you don’t really have anything to lose trying it out. Good luck.

The way the app works is quite simple: it basically fills the screen with the color selected by you, thus making any dead or stuck pixel clearly visible. It is recommended to experiment with several colors, as you might not notice the broken pixels from the first attempt – you can go with one of the default colors (black, white, red, green or blue) or you can specify a custom one. You can also set Dead Pixel Buddy to automatically switch between colors as often as you like – just modify the Time Cycle value and you are set.

You may experience a stuck pixel on a new or used LCD screen. If your monitor’s warranty has expired, or the manufacturer won’t replace the monitor because it considers one or two stuck pixels as acceptable, there are a few things that you can do.

This is obviously the safest method, but it’s not always effective. If you recently discovered a stuck pixel, you can try to turn off the monitor and unplug it for a day or two. When the damage is caused by overuse, this could help.

There are many websites that offer a stuck pixel fixing service. They work more or less in the same way, by flashing pixels and hopefully un-stick the ones that are defective.

You’ll find that many of them run with Flash, which is no longer available – fortunately, here’s one that you can still rely on – JScreenFix. JScreenFix is a free online service that can solve your problem of stuck pixels. You don’t have to download anything, so it’s not invasive nor harmful.

Visit the website jscreenfix.com and scroll down to find the Launch JScreenFix button – click on it. It will open a black screen with a square full of flickering pixels. The instructions pop up right there – however, what you’re meant to do is drag this square to the area where the stuck pixel is. Then, leave it for at least ten minutes.

If it doesn’t fix your stuck pixel on the first try, you can do a few attempts leaving it for a little longer. Usually, this method gets the job done, but it’s not a 100% guarantee.

*Safety note: If you have epilepsy, you should avoid using any of these stuck pixel fixer websites or software as they work with flashing erratic lights.

Any technique that implies applying pressure to fix a stuck pixel can potentially make more damage than good. Here you’ll find some precautions you should take to minimize these chances.

However, if you decide to do this, it’s at your own risk. Turn on your computer screen or monitor as the pixel needs to be working for the pressure methods to stand a chance.

Determine if you have hot, stuck or dead pixels – if you don’t know the difference among these, read the next section first. Only if the pixel is stuck, you’ll have a chance at fixing it with a pressure method.

Open a black image as background in full-screen mode or use a black browser window such as this. Either way, don’t just leave a blank signal. This again has to do with the fact that you need the pixel to have the backlight on. Make sure the screen is clean to avoid confusing dust with bad pixels.

Some people recommend a heat method where you use a hairdryer to warm the spot while you’re putting pressure on the monitor to fix a stuck pixel. Others suggest using a hot water damp cloth to apply the heat directly.

However, you could end up with something worse than a stuck pixel. The pressure method already represents a small risk of damaging your monitor – if you add heat, you’re increasing that risk.

To understand the possible pixel problems that you can face – and whether or not you can fix them – you need to know that an LCD screen is made by pixels. Three sub-pixels form each pixel – one is red, one is green, and one is blue (RGB).

When you have a pixel defect, it means that one or more of the subpixels aren’t working as they’re supposed to. Let’s see how these can present. Dead pixels

Dead pixels show no light, and what’s the absence of light? Dark. So, if you see a black pixel on your monitor, it’s a dead pixel. These are more noticeable when you’re working with a white background. Stuck pixels

The third option is that you see a white pixel – these are known as hot pixels. That means that all three colors (red, green and blue) are always on – this results in white light. These are more obvious on a dark background.

So, now you know what type of faulty pixels you can run into and how you can identify them. At this point, you might be wondering how do stuck pixels happen?

LCD stands for liquid crystal display. These monitors are made with multiple layers. In the far back, they have the light source that illuminates the screen with white even light.

The reason why we don’t see a fully white screen all the time is that there’s also a layer with color filters. This layer has a red, green and blue filter per pixel (RGB) – each of those would be a sub-pixel.

Anyway, all this explanation is to tell you that stuck or dead pixels often happen because there is a broken transistor that fails to supply voltage to a certain pixel or sub-pixel. Keep in mind that there are two types of LCD monitors: TN (Twisted Nematic) and IPS (In-Plane Switching). On TN monitors, the default without voltage is on. So, if the transistor is not supplying power, the pixel won’t be dead (black) but hot (white). On IPS monitors, it works the other way around.

So, you can use a dead pixel test. There are some free ones online such as the one from LCD Tech. You simply need to click on the Start Test button, and it will automatically enter full-screen mode in complete white.

Make sure your monitor is clean to identify dead pixels better. Because the screen will be completely white, you can also use this to find stuck pixels. On the other hand, a hot pixel won’t be visible – for these, you would need a dark screen.

Sometimes you can have bad luck and receive your new computer or monitor with an original pixel fault. In most cases, these are dead pixels, and therefore, there’s nothing you can do except try and exchange your monitor with the manufacturer.

Keep in mind that these are just good practices that can extend the life of your LCD screen. Unfortunately, there isn’t a full-proof method to avoid getting stuck pixels.

Stuck pixels are the most fixable problems you can have with your pixels. A stuck pixel can disappear on its own, or you can use other methods to try to fix it – in this article, you’ll find some of them.

It depends on the class of monitor that you have – only class I monitors shouldn’t have any dead pixels. For other classes, most manufacturers will consider one dead pixel as acceptable. This means that they probably won’t replace your new monitor because of it.

Of course, if this acceptable to you, it’s a different matter. It often depends on the location of the dead pixel and the size of the monitor. If you find it unacceptable, you should still give it a shot at the guarantee and see if you can have it exchanged. Check the ISO 13406-2 to see the ‘acceptable’ standards according to the type of monitor.

No, dead pixels won’t go away on their own – most of the times, they’re not even fixable. Before you give up, though, make sure the pixel is really dead and not stuck – because stuck pixels can go away.

Dead pixels are more noticeable in light areas because they are black. Also, it depends on the size of the pixel, the size of the display and the resolution. Keep in mind that once you know it’s there, you’ll keep noticing it.

If your warranty is valid and you can get your device exchanged, that’s the best way to do it. Otherwise, determine what type of pixel problem you have.

There are a few different methods to try to fix stuck pixels – although none of them is certain. On the other hand, hot and dead pixels can’t be fixed.

I hope you found this guide helpful. If you have any questions or want to share some tips on preventing, detecting, and fixing faulty pixels, please leave a comment.

• Perform highly diversified duties to install and maintain electrical apparatus on production machines and any other facility equipment (Screen Print, Punch Press, Steel Rule Die, Automated Machines, Turret, Laser Cutting Machines, etc.).

Your display has many layers. One of those layers is a liquid crystal layer that can be controlled in order to block or allow light to pass through to the actual coloured pixel layer. If you can see some kind of image then the light emitting layer is okay as is the actual pixel colours. As you have some image it is quite likely that there is some crystals moving to allow a tiny amount of light through, but not enough to make a reliable image.

Your monitor is made up of millions of pixels. Each pixel is a group of red, green and blue subpixels that combine to create the images you see on your computer screen. When a few are dead or stuck, it can be super distracting.

A dead pixel occurs when an entire pixel or a group of subpixels remain dark even when they’re supposed to be on. Since this implies that the pixel or group of subpixels are no longer powering on, they’re harder to fix than stuck pixels. In most cases, dead pixels are lost forever.

A stuck pixel occurs when one or two of the color subpixels remain activated even when they’re supposed to be off. For example, the blue subpixel might get stuck, so the entire pixel will display a different color than what is intended.

To see what’s going on, you can enlist software to help. Try a third-party download like InjuredPixels for Windows. If you’re on a Mac or don’t want to download anything, go with a browser-based solution like LCD DeadPixel Test.

Most monitor manufacturers have a return policy for dead and stuck pixels. They’ll usually replace a monitor if it has more than several pixels stuck in a single color or brightness setting. Since dead pixels are difficult to fix, replacing your monitor via the manufacturer’s warranty is your best route.

You can go the web browser application route with a site called JScreenFix. The free service claims to fix most stuck pixels within 10 minutes by using an HTML5 “PixelFixer” tool.

And since it’s HTML5 and JavaScript-based, there’s nothing to install. All you have to do is bring up the website, drag the PixelFixer window over the stuck pixel area then leave it on for at least 10 minutes.

After detecting your monitor’s stuck or dead pixels, use PixelHealer’s flashing color box on the affected areas to try and jolt the pixels back into shape. The site claims that the tool uses the already proven method of using flashing RGB colors to restore a stuck pixel or even revive a dead one.

If your monitor is out of warranty and none of the pixel fixing software methods are working for you, you have two choices. Either you learn to live with a few stuck or dead pixels here and there, or, if you’re brave enough, there’s a last-ditch method you can attempt.

First, take note of the location of the stuck or dead pixel. Then turn off your monitor and try applying gentle pressure on the affected area to “massage” it back to life. Use something with a narrow but flat edge like a pencil eraser or a pen cap. To avoid damaging your screen, wrap it with a soft, damp microfiber cloth.

The idea is that by applying gentle force, you might coax the pixel back into its proper alignment. If not done correctly, this method can actually create more dead pixels, and extreme caution is required.

AGDisplays offers zero pixel inspections in bulk for customers who have a zero-fail pixel standard. Our technicians inspect panels for hot, stuck dead pixel and evaluate LCD quality standards; we then confirm and document our findings for verification purposes.

How does it work? We can receive panels directly from the OEM before they reach you or your customer. You may send LCD panels directly to AGDisplays for inspection. If a panel fails OEM specification grade, we perform an exchange for panels that are standard or above standard for your industry.

There are thousands—if not millions—of pixels in every LCD panel. A panel with 1080x1920 contains 2,073,600 pixels. Business applications that require zero-fail pixel standards can range vastly from medical equipment, to airline entertainment systems and cockpit applications, to indoor and outdoor digital signage.

With so many pixels packed into the incredibly bright and colorful LCD technologies, there are bound to be a few dud pixels. Even turning on a brand-new screen, a user may see a dead spot here or there. When an LCD is manufactured, it may not come off the production line with 100% pixel defect free.

Dead pixelsalways appear black; these are caused by transistors in the electrodes that are stuck “off.” No light passes through the layer, causing the black appearance. Dead pixels are found by displaying solid colors on the screen and meticulously inspecting the screen for holes or missing spots. These are usually caused by a manufacturing defect and are not able to be fixed.

Hot pixelsappear as if they are “on,” they always look white; they are caused by transistors in the electrodes that are stuck to appear as if they are always on, shining bright on your display. A hot pixel might be referred to as a stuck pixel since the underlying factor is that the pixel(s) are stuck on.

Stuck pixelsare a generated when one or two of the sub pixels (red, blue, green) remain on or off. The look of a stuck pixel may vary since it depends on which color sub pixel is stuck. It appears as a bright dot of color and they are most noticeable when the screen is dark, or black. The good news is stuck pixels are often able to be corrected. If stuck pixels aren’t corrected, eventually they turn into dead pixels.

Dead pixel policies vary from manufacturer to manufacturer. Many have created a grading system to categorize the variations in pixel quality from LCD to LCD. Even ISO 13406-2 guidelines specify an acceptable amount of pixels by display category; and each industry has different standards in which pixel defects are acceptable. Many expect LCDs to have absolutely zero dead pixels.

Brand New A grade (all other manufacturers) (P Grade for AUO): (1,3,3)- 1 sub pixel can be out in 1 sector up to 3 pixels can be out (these are never noticeable to the naked eye)

Pixel pitch refers to the density of pixels on an LED screen. It is sometimes called dot pitch or pitch. Pixel pitch is measured in millimeter by the distance from the center of one pixel to the center of the pixel adjacent to it. The smaller the distance means there are more pixels in an LED cluster, thus, the higher the resolution of the display

Pixel pitch values influence the optimal viewing distance for a display. If you have a higher pixel pitch, and your viewer is too close, the picture will be grainy and individual pixels are (undesirably) viewable to the user.

With lower pixel pitch values, your display reaches a higher quality of picture display, allowing for smoother, crisper lines and finer details. Increased pixel density is not ideal for all applications; it is generally best for close viewing distance. The longer the viewing distance, the high pixel density does not have many visual benefits and might simply just increase the cost of the display.

By determining the best viewing distance for your display and application, you will be able to select the best value for your LED screen. The LED industry uses three methods to figure out a good viewing distance:

10x Rule—this is a shorthand method for calculating an approximate estimate of the Visual Acuity Distance. The calculation is: Pixel Pitch x 10 = Approximate Viewing Distance in Feet

Visual Acuity Distance –also known as retina distance, this is a formulated calculation of the distance a person with 20/20 vision must move away from an LED screen to see a coherent image that is not pixelated. The calculation is: Pixel Pitch x 3438 = Visual Acuity in Feet.

It is also important to note pixels per inch (PPI), which is simply how many pixels you would find in a single square inch on a display. All pixels are not created equally, however; pixels are different sizes on different sized displays. PPI depends a lot on the resolution of your screen.

To find your display’s PPI, you will need your display’s diagonal size in inches and the resolution of the screen. Use the chart below to find your PPI already calculated for you; if it’s not on the chart, the equation is as follows:

In an LCD screen, resolution is the number of pixels contained in a display monitor. Resolution is represented as a pair of numbers indicating the number of pixels vertically and horizontally, such as 800x600. Image sharpness is determined by the resolution as well as the size of the display. A smaller monitor with a resolution of 800x600 will have a better resolution than a larger monitor with the same 800x600 resolution.

If you suspect you have one, but you aren"t sure, investigate more closely with tools like the Dead Pixels Test or CheckPixels.com. These programs often display solid colors on the entire screen, allowing your eyes to more easily pick out pixels that aren"t functioning properly.

Dead pixels can"t be fixed in most cases, but you can sometimes revive those pixels. We have a few solutions for you to try before you send your device out for repairs.

Dead pixels are not the same as stuck pixels. These pixels look almost the same, but there"s an important distinction. A dead pixel won"t turn on, whereas a stuck pixel is permanently on. Since it"s permanently on, it typically appears as a bright, persistent dot on the screen, and is either red, green, blue, or white. If a problematic pixel is dead, it should look like a small black rectangle.

The most common cause of dead pixels is a manufacturing defect. Undetectably small errors in assembly can result in a handful of dead pixels among the millions of functional ones.

It may go away on its own, but there"s no telling how long it will take. You might have the dead pixel for the remainder of the device"s life, or it might go away in a week.

Many manufacturers have warranties that cover dead pixels, so check your device"s warranty to see if this situation applies to you. Most display manufacturers require a minimum number of dead pixels before the screen can be replaced.

You can examine the dead pixel policies of Acer, Apple, Dell, LG, and Samsung, but the best source is always the device"s specific warranty documents.

There isn"t a lot you can do to fix dead pixels; most people tend to buy a new tablet, computer, or TV when pixels start going bad. If you"re not comfortable with replacing the screen yourself (most people aren"t), then the next step is to find a local repair shop if your device is no longer under warranty or break out the wallet.

By and large, dead pixels are considered to be fairly normal when it comes to LCD displays—for example, Dell says dead pixels are not uncommon. And the larger the screen, the less likely we are to notice a few dead pixels among thousands of active ones.

Everyone has their own opinion on what they consider "acceptable" when it comes to dead pixels, but generally it depends on whether or not you even notice them in the first place. But generally speaking, anywhere from one to five inactive pixels is considered okay according to industry standards.

I believe they call it clouding but during dark scenes and dark space type movies you could see 3 large spots that where much brighter then the rest of the screen and just for the hell of it I decided to wipe the whole screen with the back of my hand and after doing so the bright spots vanished. It was like when you put a screen protector onto your phone and your chasing a bubble out.I had no idea what had happened so after that I did some research and discovered that what I had was called clouding and that rubbing it as I did could work.

There appeared to be two sides, for some it worked for others it didn"t work. I guess my point is if you heard that one method has worked for some people, then it could very well work in some cases so I would say before doing the software resolution in this article try massaging the screen 1st and then go from there.