lcd panel faults brands

I own a Philips 32" PFL 3403 LCD TV. The panel is an MVA from AOU. The TV was purchased during November, 2008. It was all the while connected through a Belkins Surge Protector to the mains. Despite the antiquated panel, I was fond of its picture quality. However, one fine evening in October, 2011, while the TV was on, the colours of the TV suddenly became pale and white, and there was ghosting / clouding of the image. The Philips Service Centre guy said it was a panel problem which cannot be repaired, and asked me to buy a new TV. To have a second opinion, I approached a reputed, independent LCD TV repair centre, to be told the same thing. When I checked online (Consumer Court), I found innumerable cases like mine, where the LCD TV has developed panel problems within three years. Most such complaints in India were related to Samsung LCD / LED TVs, may be due to purely statistical reasons such as the number of TVs sold of the brand. Some were related to Sony LCD TVs. Other brands like LG, Philips (in my case), Toshiba and Panasonic do also figure.

Not to abandon hope, I contacted "Repair & Return" of Bangalore (Repair & Return Technology India Private limited), which claims to have a state-of-art LCD panel repair facility. In turn, I was told that they are a B2B company and not B2C.

1. Why do LCD/LED panels go bad all of a sudden without any apparent reason (even when they are protected through surge suppressors and voltage stabilizers), and without any warning?

3. Repair & Return says they are a B2B firm. Since they are thriving successfully, it means there would be certainly B2C panel repair guys linked up with them. Where to find them?

If you ever notice multi-coloured or single-coloured vertical lines on your laptop screen, it may be a result of a hardware failure or due to damage to the screen. To try fixing it yourself, first unplug your laptop, hold the power button for 30 seconds and restart the laptop. If you continue to see coloured lines, the issue is probably with the LCD screen, which will need to be replaced from the brand’s service center. To be sure about the LCD screen problem, try connecting your laptop to another monitor and see if the issue persists. If it does, the issue is certainly in the LCD panel.

Firstly, check if your laptop’s brightness level is set to maximum. If the display is still dim, try restarting the device. This could just be a system error that can be resolved by restarting the device. Also, check if the AC adapter cord is loose and firmly connect it to the outlet and laptop. If the issue still persists, it is mostly due to a failure of the LCD. Behind the LCD, there is an inverter board and backlight bulb which control the picture.

The inverter board converts the low voltage your laptop uses, into higher voltage required by the long bulb that lights up the LCD screen. If the inverter board or bulb fail, you will experience the problem of a dimmed display. Even if one of these two components fail, the screen will need to be replaced, unless the service center can help by just replacing the bulb. We wouldn’t recommend you try resolving it yourself, as this is more complex and you could end up damaging the circuit board and the backlight lamp. So, it’s best to leave this job to an expert.

NDSsi uses only “Grade A” LCD panels in all of its products, while many competitors use “Grade B” panels in order to save cost, and as a result compromise quality. In medical applications, it is important not to compromise the quality of the displayed image since it is often the basis for making clinical decisions. The following tables and images show the differences between “Grade A” and “Grade B” LCD panels in terms of different types of allowable defects.

There are essentially two different types of pixel defects, bright (stuck pixels) and dark (dead pixels).The table and images below show the differences between Grade A and Grade B LCD panels in terms of allowable pixel defects.

Back in 2016, to determine if the TV panel lottery makes a significant difference, we bought three different sizes of the Samsung J6300 with panels from different manufacturers: a 50" (version DH02), a 55" (version TH01), and a 60" (version MS01). We then tested them with the same series of tests we use in all of our reviews to see if the differences were notable.

Our Samsung 50" J6300 is a DH02 version, which means the panel is made by AU Optronics. Our 55" has an original TH01 Samsung panel. The panel in our 60" was made by Sharp, and its version is MS01.

Upon testing, we found that each panel has a different contrast ratio. The 50" AUO (DH02) has the best contrast, at 4452:1, followed by the 60" Sharp (MS01) at 4015:1. The Samsung 55" panel had the lowest contrast of the three: 3707:1.

These results aren"t really surprising. All these LCD panels are VA panels, which usually means a contrast between 3000:1 and 5000:1. The Samsung panel was quite low in that range, leaving room for other panels to beat it.

The motion blur results are really interesting. The response time of the 55" TH01 Samsung panel is around double that of the Sharp and AUO panels. This is even consistent across all 12 transitions that we measured.

For our measurements, a difference in response time of 10 ms starts to be noticeable. All three are within this range, so the difference isn"t very noticeable to the naked eye, and the Samsung panel still performs better than most other TVs released around the same time.

We also got different input lag measurements on each panel. This has less to do with software, which is the same across each panel, and more to do with the different response times of the panels (as illustrated in the motion blur section). To measure input lag, we use the Leo Bodnar tool, which flashes a white square on the screen and measures the delay between the signal sent and the light sensor detecting white. Therefore, the tool"s input lag measurement includes the 0% to 100% response time of the pixel transition. If you look at the 0% to 100% transitions that we measured, you will see that the 55" takes about 10 ms longer to transition from black to white.

All three have bad viewing angles, as expected for VA panels. If you watch TV at an angle, most likely none of these TVs will satisfy you. The picture quality degrades at about 20 degrees from the side. The 60" Sharp panel is worse than the other ones though. In the video, you can see the right side degrading sooner than the other panels.

It"s unfortunate that manufacturers sometimes vary the source of their panels and that consumers don"t have a way of knowing which one they"re buying. Overall though, at least in the units we tested, the panel lottery isn"t something to worry about. While there are differences, the differences aren"t big and an original Samsung panel isn"t necessarily better than an outsourced one. It"s also fairly safe to say that the same can be said of other brands. All panels have minute variations, but most should perform within the margin of error for each model.

With LED-backlit LCD TVs, gray uniformity issues are caused by a couple of factors. LCD panels are pretty sensitive to pressure, so extra pressure caused by misalignment of the TV"s components or by mishandling of the panel during manufacturing or shipping could lead to defects appearing. Also, too much pressure can affect the backlight and how much light it diffuses, which causes some areas to be darker. Size may also have an effect because it"s harder to keep a larger screen uniform, but since we only test one size of each TV, we can"t draw any conclusions about this.

Gray uniformity is unique to each individual panel. This means that no two TVs, even of the same model, will have matching uniformity. Generally, though, higher-end TVs should have better gray uniformity, as the manufacturers will have stricter standards for the panels used. Higher-end LED-backlit TVs tend to use either Mini LED or direct LED backlighting, generally better for uniformity than edge-lit TVs.

LED and OLED TVs use different technologies to display an image. While LED TVs are really LCD TVs backlit by LED backlights, OLEDs don"t have any backlighting and instead turn each pixel on and off. As such, they perform differently when it comes to uniformity. For the most part, OLEDs tend to have better uniformity, and there are rarely any issues. LED TVs can suffer more from uniformity issues, especially if their backlight is edge-lit and not direct LED. However, we can"t confidently say one TV will have better uniformity than another just because of the backlight or panel type.

Unfortunately, gray uniformity is entirely down to the panel you get. There isn"t much you can do to improve gray uniformity as it"s down to panel lottery. You can try massaging the screen with a soft cloth to relieve the pressure, but this is a delicate technique, so it may be best to not do it if you"re unsure of yourself.

Unfortunately, there aren"t many steps that you can take to improve gray uniformity – it’s entirely down to the panel you get. You can try massaging the screen, but that"s hard to do. If you find yourself with uniformity that you can"t live with, you should exchange your TV for a different unit, or even a different model.

Please note: All mechanics everywhere are cheaters and scams. For Screen issues, there are high chances that there is no Panel problem. (It could be due to voltage issues, back light issues or small connection problems internally). But, mechanics loot money from consumers just for doing simple tasks.

Short for picture element, a pixel is a single point in a graphic image. HP TouchSmart PCs, All-in-One PCs and LCD flat panel monitors display pictures by dividing the display screen into thousands (or millions) of pixels, arranged in rows and columns. The pixels are placed close together so that they appear connected.

Debris trapped within the LCD structure can result in dark spots, but under magnification these are distinguished from an "off" sub-pixel, as the shape of the contaminating particle is visible.

Could be a couple of different things. First I would guess that the ribbons that connect to your tv are loose. They are usually held together by just glue. You could maybe try re gluing it, or putting a temporary fix with some tape. First u will need to remove the panel to the back of your tv. Before you do anything, try to put some pressure on it and see if the lines go away. I have also seen lines on tvs from someone dropping them, hitting them etc. any pressure on the screen can sometimes cause this. If thats the case, unfortunately it would be better to buy a new tv verus how much it would cost to fix it. If u do go the route of buying a TV used or new, i highly recommended doing a little research on the brand and model of it. I personally have had bad luck with Element. But have had good luck with samsung, sony, and Vizio. Good luck to you.

Please note: All mechanics everywhere are cheaters and scams. For Screen issues, there are high chances that there is no Panel problem. (It could be due to voltage issues, back light issues or small connection problems internally). But, mechanics loot money from consumers just for doing simple tasks.

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 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.

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.

To help businesses transition from LCD to longer-lasting LED signage, Samsung has launched a trade-in program. Samsung will come on site to remove your existing display and provide a discount on a new LED bundle kit.

Traded-in LCD displays that are still operating will be refurbished and resold, and your business will receive a cash rebate. Nonworking displays will be recycled and their parts reused.