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LCD panels are backlit by LED lights, so they rely on a backlight behind the panel to make the picture visible, and the LCD layer can"t prevent all light from escaping out of the screen. This means that even in a black scene, the backlight is still on, and some light escapes, causing blacks to appear gray.

Contrast/Brightness: These settings aim to improve the contrast ratio by tinkering with the white and black levels. It doesn"t have a direct effect on the local dimming but can improve the picture quality. The contrast setting increases the luminosity of the brightest whites, while brightness (sometimes called black level), makes blacks darker. Keep in mind the brightness setting on some TVs controls the backlight, which doesn"t affect picture quality.

Frame dimming: Frame dimming, or CE dimming on Samsung TVs, is a basic version of local dimming, but it dims the entire backlight instead of zones. Usually found on edge-lit TVs, it causes small highlights to become dim as well. It may improve the contrast a bit, but it"s not very useful for most scenes.

Local dimming features on LED TVs are a way to improve the contrast ratio. Since these TVs consist of LED backlights behind an LCD panel, local dimming aims to turn off, or dim, certain zones of the LED backlight, making blacks look darker and highlights brighter. However, there may be some issues with local dimming on some TVs as it could cause blooming around bright objects or for entire zones to light up when there"s a small object. Overall, most local dimming features on modern TV do an effective job at improving the picture quality in dark scenes, and only some lower-end models will have glaring problems.

Shopping for a new TV is like wading through a never-ending pool of tech jargon, display terminology, and head-spinning acronyms. It was one thing when 4K resolution landed in the homes of consumers, with TV brands touting the new UHD viewing spec as a major marketing grab. But over the last several years, the plot has only continued to thicken when it comes to three- and four-letter acronyms with the introduction of state-of-the-art lighting and screen technology. But between OLEDs, QLEDs, mini-LEDs, and now QD-OLEDs, there’s one battle of words that rests at the core of TV vocabulary: LED versus LCD.

Despite having a different acronym, LED TV is just a specific type of LCD TV, which uses a liquid crystal display (LCD) panel to control where light is displayed on your screen. These panels are typically composed of two sheets of polarizing material with a liquid crystal solution between them. When an electric current passes through the liquid, it causes the crystals to align, so that light can (or can’t) pass through. Think of it as a shutter, either allowing light to pass through or blocking it out.

Since both LED and LCD TVs are based around LCD technology, the question remains: what is the difference? Actually, it’s about what the difference was. Older LCD TVs used cold cathode fluorescent lamps (CCFLs) to provide lighting, whereas LED LCD TVs used an array of smaller, more efficient light-emitting diodes (LEDs) to illuminate the screen.

Since the technology is better, all LCD TVs now use LED lights and are colloquially considered LED TVs. For those interested, we’ll go deeper into backlighting below, or you can move onto the Local Dimming section.

Three basic illumination forms have been used in LCD TVs: CCFL backlighting, full-array LED backlighting, and LED edge lighting. Each of these illumination technologies is different from one another in important ways. Let’s dig into each.

CCFL backlighting is an older, now-abandoned form of display technology in which a series of cold cathode lamps sit across the inside of the TV behind the LCD. The lights illuminate the crystals fairly evenly, which means all regions of the picture will have similar brightness levels. This affects some aspects of picture quality, which we discuss in more detail below. Since CCFLs are larger than LED arrays, CCFL-based LCD TVs are thicker than LED-backlit LCD TVs.

Full-array backlighting swaps the outdated CCFLs for an array of LEDs spanning the back of the screen, comprising zones of LEDs that can be lit or dimmed in a process called local dimming. TVs using full-array LED backlighting to make up a healthy chunk of the high-end LED TV market, and with good reason — with more precise and even illumination, they can create better picture quality than CCFL LCD TVs were ever able to achieve, with better energy efficiency to boot.

Another form of LCD screen illumination is LED edge lighting. As the name implies, edge-lit TVs have LEDs along the edges of a screen. There are a few different configurations, including LEDs along just the bottom, LEDs on the top and bottom, LEDs left and right, and LEDs along all four edges. These different configurations result in picture quality differences, but the overall brightness capabilities still exceed what CCFL LCD TVs could achieve. While there are some drawbacks to edge lighting compared to full-array or direct backlight displays, the upshot is edge lighting that allows manufacturers to make thinner TVs that cost less to manufacture.

To better close the local-dimming quality gap between edge-lit TVs and full-array back-lit TVs, manufacturers like Sony and Samsung developed their own advanced edge lighting forms. Sony’s technology is known as “Slim Backlight Master Drive,” while Samsung has “Infinite Array” employed in its line of QLED TVs. These keep the slim form factor achievable through edge-lit design and local dimming quality more on par with full-array backlighting.

Local dimming is a feature of LED LCD TVs wherein the LED light source behind the LCD is dimmed and illuminated to match what the picture demands. LCDs can’t completely prevent light from passing through, even during dark scenes, so dimming the light source itself aids in creating deeper blacks and more impressive contrast in the picture. This is accomplished by selectively dimming the LEDs when that particular part of the picture — or region — is intended to be dark.

Local dimming helps LED/LCD TVs more closely match the quality of modern OLED displays, which feature better contrast levels by their nature — something CCFL LCD TVs couldn’t do. The quality of local dimming varies depending on which type of backlighting your LCD uses, how many individual zones of backlighting are employed, and the quality of the processing. Here’s an overview of how effective local dimming is on each type of LCD TV.

TVs with full-array backlighting have the most accurate local dimming and therefore tend to offer the best contrast. Since an array of LEDs spans the entire back of the LCD screen, regions can generally be dimmed with more finesse than on edge-lit TVs, and brightness tends to be uniform across the entire screen. Hisense’s impressive U7G TVs are great examples of relatively affordable models that use multiple-zone, full-array backlighting with local dimming.

“Direct local dimming” is essentially the same thing as full-array dimming, just with fewer LEDs spread further apart in the array. However, it’s worth noting that many manufacturers do not differentiate “direct local dimming” from full-array dimming as two separate forms of local dimming. We still feel it’s important to note the difference, as fewer, further-spaced LEDs will not have the same accuracy and consistency as full-array displays.

Because edge lighting employs LEDs positioned on the edge or edges of the screen to project light across the back of the LCD screen, as opposed to coming from directly behind it, it can result in very subtle blocks or bands of lighter pixels within or around areas that should be dark. The local dimming of edge-lit TVs can sometimes result in some murkiness in dark areas compared with full-array LED TVs. It should also be noted that not all LED edge-lit TVs offer local dimming, which is why it is not uncommon to see glowing strips of light at the edges of a TV and less brightness toward the center of the screen.

Since CCFL backlit TVs do not use LEDs, models with this lighting style do not have dimming abilities. Instead, the LCD panel of CCFL LCDs is constantly and evenly illuminated, making a noticeable difference in picture quality compared to LED LCDs. This is especially noticeable in scenes with high contrast, as the dark portions of the picture may appear too bright or washed out. When watching in a well-lit room, it’s easier to ignore or miss the difference, but in a dark room, it will be, well, glaring.

An OLED display uses a panel of pixel-sized organic compounds that respond to electricity. Since each tiny pixel (millions of which are present in modern displays) can be turned on or off individually, OLED displays are called “emissive” displays (meaning they require no backlight). They offer incredibly deep contrast ratios and better per-pixel accuracy than any other display type on the market.

Because they don’t require a separate light source, OLED displays are also amazingly thin — often just a few millimeters. OLED panels are often found on high-end TVs in place of LED/LCD technology, but that doesn’t mean that LED/LCDs aren’t without their own premium technology.

QLED is a premium tier of LED/LCD TVs from Samsung. Unlike OLED displays, QLED is not a so-called emissive display technology (lights still illuminate QLED pixels from behind). However, QLED TVs feature an updated illumination technology over regular LED LCDs in the form of Quantum Dot material (hence the “Q” in QLED), which raises overall efficiency and brightness. This translates to better, brighter grayscale and color and enhances HDR (High Dynamic Range) abilities.

And now to make things extra confusing, part of Samsung’s 2022 TV lineup is being billed as traditional OLEDs, although a deeper dive will reveal this is actually the company’s first foray into a new panel technology altogether called QD-OLED.

For a further description of QLED and its features, read our list of the best TVs you can buy. The article further compares the qualities of both QLED and OLED TV; however, we also recommend checking outfor a side-by-side look at these two top-notch technologies.

The Hisense U8H matches the excellent brightness and color performance of much pricier LCD TVs, and its Google TV smart platform is a welcome addition. But it’s available in only three screen sizes.

The Hisense U8H is the best LCD/LED TV for most people because it delivers the performance of a much pricier TV yet starts at under $1,000, for the smallest (55-inch) screen size. This TV utilizes quantum dots, a full-array backlight with mini-LEDs, and a 120 Hz refresh rate to deliver a great-looking 4K HDR image. It’s compatible with every major HDR format. And it’s equipped with two full-bandwidth HDMI 2.1 inputs to support 4K 120 Hz gaming from the newest Xbox and PlayStation consoles. Add in the intuitive, fully featured Google TV smart-TV platform, and the U8H’s price-to-performance ratio is of inarguable value.

Key to this functionality is the U8H’s employment of mini-LED backlighting with local dimming, which allows this TV to produce very bright light while still maintaining satisfyingly deep black levels that are typically free of blooming (or light bleed that’s visible around bright objects against a dark backdrop). This not only ensures impressive image contrast, it also makes the U8H a viable choice for most rooms, whether they’re brighter than average or dimmed down like a movie theater.

That’s not to say the U8H has pixel-precise light control—it’s not an OLED TV, after all—but it does a terrific job most of the time. In fact, in our tests, the U8H bested last year’s upgrade pick, the Samsung QN90A, in certain scenarios: The intro to Guillermo del Toro’s Cabinet of Curiosities on Netflix features the filmmaker against a pitch-black backdrop. Though last year’s QN90A failed to maintain perfect control over dimming elements during this scene (the black backdrop brightened distractingly once a sufficient amount of brighter content appeared on screen), the U8H did not. (For the record, the newer QN90B also passed this test.) The U8H’s mini-LEDs also help the screen look uniformly bright: Although the U8H is still not as good as an OLED TV in this respect, it shows very little indication of being a backlight-driven display, even during tricky scenes with large swaths of dim lighting.

The U8H’s brightness, black-level integrity, and local-dimming abilities make this an excellent TV for watching HDR content. The U8H is capable of playing HDR content in all of the major formats (HDR10, HDR10+, Dolby Vision, and HLG), but when it comes to impressive HDR, what’s under the hood is much more important than format compatibility. The most crucial thing for good HDR is high brightness and deep color saturation, and the U8H’s quantum dots achieve the latter. It’s not as simple as just having quantum dots, however: While many TVs (even the budget options) have quantum dots nowadays, what is often not taken into account is that brightness directly affects color saturation. For example, both the 2022 TCL 6-Series and the Hisense U8H are equipped with quantum dots, mini-LED backlights, and local dimming. But because the U8H is notably brighter than the 6-Series, it also achieves a higher total color volume. During our color-volume testing, the U8H exhibited color ranges at more than 100% of the DCI-P3 color space (the range of color needed to properly display HDR content), and it is capable of roughly 10% more total color volume compared with the 6-Series.

What does this mean in real-world terms? It means that the Hisense U8H truly excels as a modern 4K HDR TV, whether you’re watching the latest episode of Rings of Power or playing Overwatch 2. While watching HDR content side by side on the U8H and on our upgrade pick, the Samsung QN90B, I was truly surprised by how similar they looked at times, given that our upgrade pick is much more expensive. That said, though the U8H achieves impressive results where light output and color volume are concerned, it also exhibited some occasional video processing and upscaling issues (see Flaws but not dealbreakers), which videophiles and AV enthusiasts may take umbrage with. But in general, the picture quality punches well above its weight, metaphorically speaking.

And thanks to Hisense’s inclusion of Filmmaker Mode, it’s easy to rein in the U8H’s brightness abilities for a more-subdued and filmic experience in a darker room. Our measurements revealed that this mode has a very accurate white balance, mostly accurate colors (green is a bit oversaturated, but not egregiously so), and a perfect “dark room” gamma (which controls how quickly the video signal transitions from dark to light). Additionally, the TV’s 120 Hz refresh rate means it can play Blu-ray discs at 24 fps without the judder that’s usually present on TVs with 60 Hz refresh rates.

The TV’s higher refresh rate also reduces motion blur in faster-moving sports and allows for smoother, more stable motion in games. Two of the four HDMI inputs support 4K gaming at 120 Hz. The U8H measured low input lag while playing in 4K resolution, and Hisense’s helpful GameZone setting in the picture menu allowed me to confirm the presence of 120 Hz playback and variable refresh rate during games.

The onboard Google TV smart platform is another feather in this TV’s cap. As usual, however, it will be much more satisfying to use if you have a Google account and already take advantage of Google’s connected services, like Photos. The experience of navigating the TV’s smart features—scanning QR codes to sign into apps, using the onscreen keyboard, and browsing your Google Photos to set a photo as a screensaver—was very satisfying in terms of responsiveness and speed. Powering on the TV and booting into an app took just seconds. The included Bluetooth remote is also equipped with a handy “Hey Google” button, allowing you to pull up Google’s assistant and use voice commands to search for content or set a reminder. If you have multiple users with their own Google accounts, you can designate separate profiles (attached to a Gmail account) so that each user can customize the experience to their liking, as well as access their own Google Drive or Photos. While some reviewers have reported instances of momentary freezing while using the U8H’s platform, I didn’t personally experience any instances of slowdown that were egregiously worse than with any other smart-TV platform.

In terms of design, the Hisense U8H is not as svelte as our upgrade pick, but it’s plenty sturdy and doesn’t look or feel cheap. Two narrow, metal feet jut out from beneath the panel and steadily hold the TV. They can be attached in two separate spots, either closer in toward the middle of the panel or out toward the edges, to account for different-size TV stands. The feet are also equipped with cable organization clasps—a nice touch for keeping your TV stand free of cable clutter. Though the TV is primarily plastic, its bezels are lined with metal strips, providing a bit more durability in the long run. I moved it around my home, and it was no worse for wear, but we’ll know more after doing some long-term testing.

The Hisense U8H has some difficulties with banding, or areas of uneven gradation, where transitions that should appear smooth instead look like “bands” of color (sometimes also called posterization). Like many current 4K HDR TVs, the U8H uses an 8-bit panel rather than a 10-bit panel, which affects the color decoding and color presentation process. This is usually relevant only with HDR video and games. When playing games on the PlayStation 5 and Xbox Series X, I saw a few instances where the content wasn’t rendered correctly and displayed ugly splotches of color on the screen. However, this almost always occurred during static screens (such as a pause menu or loading screen); I rarely spotted it during actual gameplay. Hisense has stated that it would address the problem in a future firmware update, but at the time of writing it was still present. This is a flaw that may give dedicated gamers pause, but we don’t consider it to be a dealbreaker for most people.

I also saw occasional instances of banding with TV shows and movies, though they were few and far between. The U8H isn’t the best at upscaling sub-4K content, so videos with a 1080p or lower resolution looked a little soft. You can get better overall video processing and upscaling by springing for our upgrade pick (this is one reason it’s more expensive, after all).

Although the UH8 TV has four HDMI inputs, only two of them are fully HDMI 2.1–compatible. And one of those is designated as the eARC input (intended as an audio connection for a soundbar or AV receiver connection). So if you’re pairing an external audio system with the U8H, you may have only one input remaining that can support HDMI 2.1 features like 4K 120 Hz playback, variable refresh rate, and auto game mode; this could be a dealbreaker if you own more than one current-gen gaming console. If you’re in that boat, you may want to splash out some extra dough for our upgrade pick. Additionally, folks using pre-HDMI source devices—like the five-cable composite connector with green, red, blue, and red/white audio inputs—should be aware that this TV requires an adapter to allow those devices to connect, and an adapter is not included in the box.

Finally, like most TVs that use vertical alignment (VA) LCD panels, the U8H has a limited horizontal viewing angle, which may be a bit annoying if you’re hoping to entertain a large crowd. Our upgrade pick uses a special wide-angle technology to address this.

If you’re watching in a darker room and want the most accurate picture you can get—preserving the director’s intent—select the U8H’s Filmmaker Mode as your picture mode. In a brighter room, we recommend the Theater Day picture mode. In either case, you should go into the backlight settings, disable the automatic light sensor, and set the backlight to your personal preference. This is true whether you’re watching SDR or HDR content.

*Purchase an eligible 70” or larger LG TV and receive free Wall mounting by Handy ($164.99 value). Savings will be reflected in the cart when all offer requirements are met. If any of the qualifying items are removed from the cart, returned or part of the order is cancelled, the promotional savings will be void. Handy wall mounting service must be added to the original TV order and is not redeemable separately. Wall mounting by Handy includes installation of TV mounting bracket, mounting of TV and load testing the hardware. Wall mount not included and must be purchased separately (unless noted for the OLED G series). Prices and offers are non-redeemable for cash and non-transferable. Available only on LG.com from January 22, 2023 through February 12, 2023. Availability, prices and terms of offer are subject to change without notice. [Click here for Handy full terms: LG + Handy.]

*Purchase an eligible TV and sound bar bundle package in a single transaction on LG.com and receive instant additional savings of up to $200 off the pre-tax sale price of the combined purchase of the TV and sound bar. Savings will be reflected in the cart when all offer requirements are met. If any of the qualifying items are removed from the cart, returned or part of the order is cancelled, the promotional savings will be void. TV and sound bar purchase must be in the same order. Amount of savings depend on the qualifying sound bar model purchased with the qualifying TVs. Prices and offers are non-redeemable for cash, non-transferable and may not be combined with other offers/discounts. Availability, prices and terms of offer are subject to change without notice.

Prices, promotions and availability may vary by model, store, and online. Prices subject to change without notice. Quantities are limited. Check with your local retailers for their final price and availability.

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LCD LED is the screen technology most will be familiar with (or already own). These screens use a backlight to illuminate their pixels, of which there’s usually a choice between full-array and edge-lit backlighting.

DLED stands for Direct Light Emitting Diode. It’s where Full-Array backlighting is derived from but is less advanced, with fewer LEDs behind the screen. It’s likely a display termed as DLED won’t have local dimming i.e. control over how bright or dark an area of an image can be. As such, the LEDs are always ‘on’ and while colours can be bright and punchy, DLED screens without local dimming are less effective at reproducing blacks, producing a washed out appearance in dark scenes with bright elements.

OLED stands for Organic Light Emitting Diode. It’s a self-emissive screen technology and that means every pixel has the ability to produce its own light when electricity is applied. The more electricity applied, the brighter they glow, with different materials used to deliver different colours.

Every single pixel works independently of its nearest neighbours, offering dimming abilities at a pixel level. You can have a pixel that’s ‘on’ next to one that’s ‘off’ (literally black), and that creates some of the best contrast ratios and black levels of any TV.

By reducing the size of the LED form, it means more can be squeezed in, allowing for up to thousands of LEDs to be deployed depending on the screen size. Much like Spider-Man’s ‘with great power comes great responsibility’, with more LEDs comes more dimming zones, leading to greater control over how bright and dark an image can be.

Unlike an LCD LED or Quantum Dot TV, Micro-LED combines the LCD layer and LED backlight. What that means is that a pixel is a cluster of three LEDs (a red, green and blue) to create the colours seen on screen.

However, MicroLEDis expensive to produce on a mass scale and in smaller sizes. The smallest MicroLED screen so far is a 76-inch option, but Samsung hasn’t provided a hard date for availability.

QLED (Quantum Dot Light-emitting Diode, forget about the missing ‘D’) is a fancier take on LCD TVs made popular by Samsung. After some to-ing and fro-ing on what it means, it now refers to a TV that combines traditional LCD technology with Quantum Dots.

What are Quantum Dots we hear you ask? They are filters that use an array of tiny dots of slightly different sizes to produce different wavelengths (and therefore colours) when light is applied. As each dot is focused on one colour, Quantum Dots can produce more precise colours, as well as a wider range of colours, and when you factor in its inherent ability to cope with high brightness, you get spectacularly colourful, bright and varied images.

Although not every Quantum Dot TV is equal. Match a Quantum Dot TV with a full array backlight and you get more precise black levels and brightness, but you’ll also have to pay more. Edge-lit Quantum Dot TVs boast a colourful image, but without a full-array dimming system, black levels and contrast can suffer.

IPS and VA are both screen technologies and you’ll find them in LCD LED TVs, as well as Quantum Dot and Mini-LED. IPS stands for In-Plane Switching and offers consistent, accurate colours at wide viewing angles, as well as quick response times.

VA stands for Vertical Alignment and while viewing angles are poorer compared to IPS, contrast and black levels are better. If you like watching movies in a dark room, VA is the panel to plump for.

Of the two, VA is more popular among TV manufacturers due to its contrast and black levels, but some still use IPS, Panasonic for some of their edge-lit displays, LG with their QNED Mini-LEDs and Sony in their more affordable LED TVs.

TV manufacturers also develop their own technologies on top of IPS and VA panels (such as Samsung’s Viewing angle technology on its VA displays) but you often have to pay a premium for that.

In short, with LCD LED, for the best possible picture quality, a TV with a VA panel and full-array local dimming is your best bet. If you’re aren’t swayed by best image quality, or are purchasing a smaller screen, a standard DLED or edge-lit display will likely suit.

Even after the introduction of newer display technologies, LCDs still remain relevant even today.LCD displays are used for multiple purposes (TV, Monitor, Mobile Phones, Laptops, Automobiles, etc.) and one single configuration cannot satisfy all the purposes. So, LCD displays come with two different panels – VA (Vertical Alignment) and IPS (In-Plane Switching) to satisfy the different viewing needs of consumers.

A VA panel offers a superior contrast ratio but a narrow viewing angle. Contrarily, an IPS panel offers a wide viewing angle but a low contrast ratio.

As mentioned earlier, displays with VA Panels provide a great contrast ratio. You can find VA panels that typically come with contrast ratios of 3000:1 or 6000:1. A comparable IPS panel will only have a contrast ratio of 1000:1.

But they fall behind when it comes to viewing angles. Viewing angle denotes the angle at which you can sit and watch the TV / monitor without a drop in the picture quality.

VA panels have narrow viewing angles. You will only be able to have an immersive experience when you sit straight opposite the display. The wider angles will not provide you the same experience.

In this, the liquid crystals are arranged parallel to the glass substrate instead of the perpendicular alignment. Furthermore, the structure of crystals and the placement of electrodes differ from the one used in VA panels. The electrodes occupy more space that results in lower contrast and brightness of the screen.

With the IPS panels, you can view the TV / monitor from a wide-angle and still get an impressive picture quality. Unlike VA panels, you will notice very little difference in color reproduction when you sit at a wide-angle from the display.

But when it comes to black uniformity, the IPS panels are sub-par. These panels do a poor job in displaying a bright image in the center of a completely black screen.

One more major drawback with the IPS panels is that they exhibit a distinct phenomenon called ‘IPS Glow’. You will notice some light patches on the corners of the screen. This happens when excessive light is passed through the screen.

Initially, IPS panels are mainly used in TVs due to their wide viewing angles, as we can watch TV in our living room from anywhere. But due to their better quality, color accuracy and response time, LCD panels gradually occupied the high-end computer monitor and laptop screens

IPS:These panels have the highest color range. You will be able to enjoy a realistic gaming experience. Besides, they have better viewing angles. So, you won’t notice any drop in picture quality even when you are not sitting in front of your TV / monitor.

VA:Even though the color range is not as great as the IPS panel, it does a pretty good job in showing the color variations. But the viewing angle is narrow. So, you have to sit straight opposite the TV / monitor.

VA panel compensates for its decent color range with an impressive contrast ratio. You will be able to see great detailing in the difference between light and dark colors.

IPS:IPS panels have one of the highest refresh rates. While you easily find an IPS panel with a refresh rate of 144Hz, some of the latest ones come with a refresh rate of 360Hz. If you are a serious online-gamer, digital artist, or video editor, then you have to go with the highest refresh rate within your budget.

VA:VA panels have lower refresh rates than IPS panels. Most VA panels come with a refresh rate of 120Hz. If you want to have a higher refresh rate, then you have to be willing to spend extra. VA panels have a maximum refresh rate of 240Hz.

IPS:IPS panels generally come with a response time of 4 milliseconds. This would suffice for watching TV or playing most games. But, if you are playing racing games or first-person shooting games, you need to have a response time of less than 2 milliseconds.

VA:VA panels generally have a slower response time than IPS panels with 5 milliseconds. So, there is a higher chance for you to experience motion blur. But, some of the VA panels that come with an expensive price tag have faster response times.

IPS:When it comes to the viewing angle, IPS panels far outweigh the VA panels. They have wider viewing angles. You will experience no drop in picture quality even if you sit and watch the TV from an extreme angle.

VA:The VA panels have a very narrow viewing angle. You have to sit as close to the straight axis of the TV to enjoy the picture quality. If you sit wider, there will be a significant loss in the picture quality.

IPS:IPS panels do a decent job in the contrast ratio segment but they are nowhere close to that of VA panels. An IPS panel offers a contrast ratio of 1000:1. When you watch a black color environment in an IPS panel, the black color will be slightly greyed out.

VA:VA panels offer a superior contrast ratio of 6000:1 that is very impressive. It has the capacity to show dark environments as darker. So, you will enjoy the picture detailing shown by the VA panels.

IPS:IPS panels are not really great at displaying the uniform black color throughout the screen. Due to the low contrast ratio, the black color will appear slightly greyed out.

VA:VA panels have a good black uniformity. But it also depends on the TV model you go with. Not all TV models with a VA panel have good black uniformity. But it is safe to say that in general, VA panels have better black uniformity than an IPS panel.

To put it short, the main difference between the panels lies in the alignment of the liquid crystals. The alignment results in the differences in the performance and picture quality of the panels.

The VA panels are ideal for office/study use, high-end PC games, and online games. If you are looking for a panel for mixed usage, the VA panel should still suffice your needs.

During the Consumer Electronics Show back in January, we noticed that some TV manufacturers were debuting LCD TVs with a new type of LED backlight, a direct-lit LED backlight.

At the time we didn"t know a lot about direct-lit LED backlights, but based on where these TVs were positioned in the manufacturer"s lineup—typically in or close to the entry-level series—it appeared that direct-lit LED backlight technology was able to bridge the price gap between lower-cost CCFL (fluorescent) backlights and the newer edge LED backlights that have become increasingly common in many LCD TVs. This year, for example, both Samsung (EH series) and LG (LS3400 series) are offering lower-priced LCD TVs with direct-lit LED backlights.

Most of the LCD TVs in our TV Ratings now come with edge LED backlights, where the LEDs are arrayed around the perimeter—typically the sides—of the TV. A waveguide (or lightguide, or diffuser) then spreads the light across the entire panel, hopefully in a uniform fashion.

The other type of LED-based backlighting we"ve seen—now less common—is a full-array LED backlight, where rows of LEDs are spread across the entire back panel of the TV. Using a feature called local dimming, the LEDs are divided into a number of zones that can be individually controlled, so some portions of the backlight can be dimmed while other remain illuminated. In some instances, we"ve seen this improve contrast and black levels. Some edge LEDs also have a form of local dimming, but this has had a negligible effect on contrast or black levels on most of the TVs we"ve tested.

Direct-lit LED backlights are an offshoot of full-array backlighting, in that they use LEDs spread across the entire back panel of the TV. (The TV"s spec page may just refer to these TVs as having a full-array backlight.) However, there are a few key differences compared to the more expensive full-array LED sets we"ve tested previously. One is that they use significantly fewer LEDs across the back of the panel. Another is that these sets lack the local dimming feature.

In addition, these TVs are much deeper than previous LED-backlit models, especially the ultra-thin edge LED sets. In fact, they more closely resemble LCD TVs with CCFL backlights. The reason: Because fewer LEDs are used, they have to be moved farther away from the screen to provide adequate light coverage across the panel, much the way the beam of a flashlight gets wider as you move it away from an object.

But the primary reason we"re seeing direct-lit LED backlights is price. Though they do cost a bit more than CCFL models, they"re less expensive than edge LED models, since they don"t require the lightguide plates. And in a tough economy, this lets manufacturers offer less-expensive models without having to forgo what has become perceived as a key LCD feature—an LED backlight. Although direct-lit LED backlights are no slimmer than CCFL-based LCD TVs, they do offer an advantage over models with fluorescent lights: better energy efficiency.

We"re currently testing a few Samsung models that use direct-lit LED backlights, so make sure to check out our TV Ratings in the next week or so to see how these sets fared. We"ll also be watching the market to see if more manufacturers embrace this type of backlight in their lower-priced LCD TV models.

Industry standards for flat-screen televisions have transitioned away from LCD in the past few years due to several factors. Not only were they slower to respond, but they also increased your electric bill in the long run. Additionally, the contrast of the presentation of colors was off making shades of blacks appear grey.

These aforementioned problems with LCD screen televisions made way for LED TVs to take over the market, as they resolve all of the negative attributes associated with LCD televisions. In comparison, LED TVs have better response time, more brightness, and are more energy efficient. However, there are different types of LED TV’s that affect the picture and look of the screen.

Edge Lit LED TVs are TVs with LED lighting that surrounds the perimeter of the TV. These types of TVs are thinner, cool off more easily, and they are cheaper to manufacture.

Direct Lit LED TVsare televisions that have LED lighting located directly in back of the LCD panel. With the amount of coverage this execution has, overall all brightness and contrast is better than Edge Lit LED TVs. Direct Lit LED TVs are generally thicker and more expensive to produce.

There isn’t a direct answer to this, as it really depends on the purpose of the TV. For example, the best professional monitors use Direct Lit LEDs, since overall image quality is better. However, for those who want a slim-profile TV, Edge lit is the way to go.

Need help making a decision regarding what hospitality television would best suit your business? Contact our hotel technology experts directly. They will help guide you through the different options available in our inventory.

An LED-backlit LCD is a liquid-crystal display that uses LEDs for backlighting instead of traditional cold cathode fluorescent (CCFL) backlighting.TFT LCD (thin-film-transistor liquid-crystal display) technologies as CCFL-backlit LCDs, but offer a variety of advantages over them.

While not an LED display, a television using such a combination of an LED backlight with an LCD panel is advertised as an LED TV by some manufacturers and suppliers.

A 2016 study by the University of California (Berkeley) suggests that the subjectively perceived visual enhancement with common contrast source material levels off at about 60 LCD local dimming zones.

LED-backlit LCDs are not self-illuminating (unlike pure-LED systems). There are several methods of backlighting an LCD panel using LEDs, including the use of either white or RGB (Red, Green, and Blue) LED arrays behind the panel and edge-LED lighting (which uses white LEDs around the inside frame of the TV and a light-diffusion panel to spread the light evenly behind the LCD panel). Variations in LED backlighting offer different benefits. The first commercial full-array LED-backlit LCD TV was the Sony Qualia 005 (introduced in 2004), which used RGB LED arrays to produce a color gamut about twice that of a conventional CCFL LCD television. This was possible because red, green and blue LEDs have sharp spectral peaks which (combined with the LCD panel filters) result in significantly less bleed-through to adjacent color channels. Unwanted bleed-through channels do not "whiten" the desired color as much, resulting in a larger gamut. RGB LED technology continues to be used on Sony BRAVIA LCD models. LED backlighting using white LEDs produces a broader spectrum source feeding the individual LCD panel filters (similar to CCFL sources), resulting in a more limited display gamut than RGB LEDs at lower cost.

Using PWM (pulse-width modulation), a technology where the intensity of the LEDs are kept constant but the brightness adjustment is achieved by varying a time interval of flashing these constant light intensity light sources,

A first dynamic "local dimming" LED backlight was public demonstrated by BrightSide Technologies in 2003,Sony in September 2008 on the 40-inch (1,000 mm) BRAVIA KLV-40ZX1M (known as the ZX1 in Europe). Edge-LED lighting for LCDs allows thinner housing; the Sony BRAVIA KLV-40ZX1M is 1 cm thick, and others are also extremely thin.

LED-backlit LCDs have longer life and better energy efficiency than plasma and CCFL LCD TVs.mercury, an environmental pollutant, in their manufacture. However, other elements (such as gallium and arsenic) are used in the manufacture of the LED emitters; there is debate over whether they are a better long-term solution to the problem of screen disposal.

Quantum dots are photoluminescent; they are useful in displays because they emit light in specific, narrow normal distributions of wavelengths. To generate white light best suited as an LCD backlight, parts of the light of a blue-emitting LED are transformed by quantum dots into small-bandwidth green and red light such that the combined white light allows a nearly ideal color gamut to be generated by the RGB color filters of the LCD panel. The quantum dors may be in a separate layer as a quantum dot enhacement film, or replace pigment-based green and red resists normally used in LCD color filters. In addition, efficiency is improved, as intermediate colors are no longer present and do not have to be filtered out by the color filters of the LCD screen. This can result in a display that more accurately renders colors in the visible spectrum. Companies developing quantum dot solutions for displays include Nanosys, 3M as a licensee of Nanosys, QD Vision of Lexington, Massachusetts, US and Avantama of Switzerland.Consumer Electronics Show 2015.quantum dot displays at CES 2017 and later formed the "QLED Alliance" with Hisense and TCL to market the technology.

Mini LED displays are LED-backlit LCDs with mini-LED–based backlighting supporting over a thousand full array local dimming (FALD) zones, providing deeper blacks and a higher contrast ratio.

Competing display technologies for the best image performance; A.J.S.M. de Vaan; Journal of the society of information displays, Volume 15, Issue 9 September 2007 Pages 657–666; http://onlinelibrary.wiley.com/doi/10.1889/1.2785199/abstract?

Novitsky, Tom; Abbott, Bill (12 November 2007). "Driving LEDs versus CCFLs for LCD backlighting". EE Times. Archived from the original on 28 November 2010. Retrieved 21 November 2020.

Method of and device for generating an image having a desired brightness; D.A. Stanton; M.V.C. Stroomer; A.J.S.M. de Vaan; US patent USRE42428E; 7 June 2011; https://worldwide.espacenet.com/publicationDetails/biblio?CC=US&NR=RE42428E

"Implementing directive 2005/32/EC of the European Parliament and of the Council with regard to ecodesign requirements for televisions", 2009; http://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX:32009R0642

LCD Television Power Draw Trends from 2003 to 2015; B. Urban and K. Roth; Fraunhofer USA Center for Sustainable Energy Systems; Final Report to the Consumer Technology Association; May 2017; http://www.cta.tech/cta/media/policyImages/policyPDFs/Fraunhofer-LCD-TV-Power-Draw-Trends-FINAL.pdf Archived 1 August 2017 at the Wayback Machine

Polarisation-sensitive beam splitter; D.J. Broer; A.J.S.M. de Vaan; J. Brambring; European patent EP0428213B1; 27 July 1994; https://worldwide.espacenet.com/publicationDetails/biblio?CC=EP&NR=0428213B1&KC=B1&FT=D#

Modern LCD TVs rely on LED backlighting to produce the visuals you see on the screen. But their picture quality and price can differ based on their backlighting system. So, what are these backlighting systems, and how are they different?

LCD TVs can be grouped into three categories based on the type of LED backlighting system: Direct-lit, edge-lit, and full-array. As the name suggests, direct-lit TVs feature a panel of LEDs placed directly behind the display stack. Full-array TVs have a similar LED placement, but the number of LEDs is significantly more, and these LEDs are divided into different zones. But unlike both direct-lit and full-array TVs, edge-lit TVs have LEDs on the perimeter, and depending on the TV, these LEDs may or may not be grouped into multiple zones.

The LED backlight zones in full array and edge-lit TVs are significant as they enable the manufacturers to implement a feature called local dimming. It allows TVs to control the backlight on a scene-by-scene basis. So the TV can turn off LED backlighting in parts of the screen where it’s supposed to be darker while keeping other parts lit. As a result, LCD TVs with local dimming can produce deep, uniform blacks and have a better contrast ratio than the LCD TVs that don’t have this feature.

Direct lighting is the newest of the three types backlighting in LCD TVs. The first commercial direct-lit LCD TVs emerged around 2012 and are essentially an off-shoot of the full-array TVs.

As direct-lit TVs require fewer LEDs and no backlight control, they are cheaper to produce and thus typically limited to the entry-level and mid-range segments of a TV manufacturer’s portfolio.

But, the lower number of LEDs also means they have to be placed farther away from the screen to offer sufficient light coverage across the panel. As a result, direct-lit TVs are usually thicker than TVs with other backlighting systems.

Additionally, the lack of backlight control limits the contrast ratio of direct-lit LCD TVs to the native contrast ratio of the panel. So if a direct-lit TV uses a VA-type LCD panel, it will have a reasonable contrast ratio, but TVs with IPS-type panels have a poor contrast ratio.

Sony X85J is a direct-lit 4K LCD TV. It uses a VA-type panel and comes with features like HDMI 2.1 ports, VRR support, and Android TV operating system.

Edge LED backlighting first appeared in TVs in 2008, allowing for a thinner profile than LCD TVs with other backlighting solutions. But as the LEDs are placed on the rim of the screen, edge-lit TVs require a diffuser to light up the entire display adequately. This adds to their cost, making them slightly more expensive than direct-lit TVs. But given that backlighting is just one part of an LCD TV’s cost, you will find both cheap and costly edge-lit TVs on the market.

Some edge-lit TVs also come with local dimming support. But the number of backlight zones is typically far lower than in full-array TVs, and the individual LEDs are responsible for lighting up entire columns of the screen. So edge-lit local dimming is much less precise, and the benefit in terms of contrast ratio is minimal.

Full-array TVs have the best backlight implementation among LCD TVs. Not only do these TVs have a large number of LEDs, but the LEDs are also divided into multiple zones for dynamic backlight control. So, depending on the number of backlight zones and local dimming implementation, full-array TVs can have modest to excellent improvement over the native contrast ratio of the LCD panel.

Unfortunately, LCD TVs with full-array local dimming can also suffer from various screen artifacts, such as blooming and black crush, depending on the number of backlight zones and the overall local dimming implementation.

The Samsung QN90A is one of the best LCD TVs on the market and it uses full-array local dimming. The TV has 4K resolution, HDMI 2.1 port, and a 120Hz VA-type panel.

If you are shopping for a new TV and curious about its backlighting system, you can consult the TV’s specifications. Manufacturers generally mention whether an LCD TV is direct lit, edge lit, or full array. In the case of full-array TVs, the number of local dimming or backlight control zones is also listed in the TV’s specifications. This number is usually different for different sizes of a particular TV and can impact the amount of contrast ratio gain you can expect.

OLED TVs are self-emissive and don’t need a backlight, unlike LCD TVs. Instead, each pixel of an OLED panel can generate its own light and be switched off to display the perfect black color. So, OLED TVs essentially offer pixel-level local dimming. As a result, they have a near-infinite contrast ratio and are generally considered to have the best picture quality. But they are also typically more expensive than LCD TVs and can suffer from burn-in.

All-in-all, the backlight system of an LCD TV can impact its picture performance. And if you are shopping for a new TV, full-array TVs generally have the best picture quality. But if you are restricted by your budget, direct and edge-lit TVs can also deliver good visual performance. But make sure to read expert reviews to get a better idea about the overall quality of a particular television.

Not only did they offer better picture quality, but these types of TV were thinner, lighter and easy to mount on the wall – and started the trend for larger and larger screen sizes.

But while the plasma TV was a little bulkier and more expensive, many believed it to have the best picture quality, so it was more popular with enthusiasts and home theater buffs.

Generally, an LED TV offers better value and a wider choice of screen sizes, whereas an OLED TV is more expensive, but many consider it to have the best picture quality.

Edge Lighting: the lights are arranged around the edge of the screen, directing the light across the back. They are also known as edge-lit TVs. The main advantage is the panel is usually cheap, thin and light. The main disadvantages are reduced black levels and inconsistent lighting across the screen.

Back Lighting: the lights are positioned in rows directly behind the screen. These TVs are also called backlit, direct-lit or full-array TVs, although full-array TVs have lights arranged in blocks rather than rows. Their main advantage is better contrast by using local dimming – where the screen can switch off the light in dark areas of the picture. One disadvantage of local dimming is that it can cause a ‘halo’ effect when a bright image appears on a dark background.

In short, a VA panel will have the best picture quality, especially when viewed straight-on in a dark room, i.e., it is better for your home theater TV.

However, an IPS panel will give a better picture in a living room with wider viewing angles, where people watch from various locations around the room.

To date, typical OLED TV screens are known as WOLED panels, aka White OLED or WRGB OLED, and these work in a different way to the RGB OLED screens used in phones and other mobile devices.

WOLED panels use white pixels and an RGB filter to make the colors, creating a fantastic image, but they can’t match the maximum brightness of LED TV screens.

Burn-in: unlike temporary image retention, screen burn-in means a static image or logo stays on the screen permanently. It’s unlikely to be a problem if you watch varied content, but using an OLED TV as a computer monitor or regular gaming screen is not recommended.

HDR images on a supported TV make a big difference in picture quality, and you can get some ‘WOW’ moments while watching some movies and documentaries.

However, the refresh rate is an excellent example of a specification that sounds exciting – but, in reality, it won’t make that much difference to your daily viewing.

In an ideal world, you will install the TV in your room and sit directly in front of it. You may be close or further away, but you will watch the TV screen front-on.

In the image above, the ideal position is obviously at 0°, directly in front of the screen. The wider you move either side towards the 45° position, the image will get worse.

Historically, LCD and LED TVs have always had problems with the viewing angle, and if you want an LED TV that looks good from the side, look out for one made with an IPS panel.

While it uses the same QD-OLED panel as the Samsung S95B, the outstanding Sony video-processing engine might give it the edge over the Samsung on pure picture quality.

And gamers will also love how it handles all the action in the latest games – with two HDMI 2.1 inputs and support for 4K/120Hz video and variable refresh rate.

This TV has been engineered to meet the high standards required for IMAX Enhanced products, ensuring it will deliver one of the best pictures available.

The Netflix Adaptive Calibrated Mode has been created by engineers to ensure you get the best picture quality possible while watching Netflix content.

The LG C1 4K OLED TV produces a picture that must be seen to be believed. With self-lit pixels and no backlight, you can get the deepest of blacks, and this TV can display a stunning image.

The C1 has support for all the leading versions of HDR – HDR10, Dolby Vision and HLG. So, you can be safe in the knowledge that you can play most of the HDR content available.

Of course, a thin screen won’t make much difference when you watch it from the front. But it’s still quite a sight – and it might make installing the screen in your room a little easier in some situations.

LG’s ThinQ AI technology is another helpful feature of these TVs. This is available across many LG products and allows interactive control via the LG ThinQ app and voice control.

Fortunately, even though they now also make OLED TVs, Samsung continues to build great QLED TVs, offering outstanding picture quality plus all the other benefits of LED screens.

So, if you feel that an OLED TV isn’t quite right for you – but still want a TV with incredible picture quality – this TV offers one of the best pictures you can get in a modern flat-screen TV.

The Samsung QN90B has a full-array backlight, meaning the LED lights are placed directly behind the screen in zones, and good local dimming performance for creating excellent detail in darker scenes.

The larger models with the Ultra Viewing Angle layer have excellent off-axis performance for an LED panel, while the two smaller screens suffer accordingly.

However, you will only get the best from this TV if you sit straight on. Being a VA panel, the viewing angles aren’t the best when you are watching the screen from the side.

This TV is very responsive and will therefore be a good value for many gamers. The only possible downside here is the lack of support for Variable Refresh Rate, G-Sync and FreeSync.

Hopefully, this guide has made it a little easier to decide which way to go – and has explained some of the confusing technical jargon that makes the decision even harder.

Currently, there are two main TV types – OLED and LED. Generally, an OLED TV offers the best picture quality and viewing angles – so it would often be a better choice for a home theater screen and movie viewing. However, LED TVs work better for more general viewing and have more screen sizes and cheaper options. Ultimately, one isn’t necessarily better than the other, and either might be more suitable depending on your requirements.

It’s difficult to determine a single best TV brand as TVs come in various types, prices, and with different features. As a rough generalization, the best OLED TVs are produced by LG and Sony, and the best LED TVs are made by Samsung, Sony, Hisense and TCL. However, there are several excellent brands in all TV categories, which may vary depending on where you are, so you need to look deeper into your options to find the best brand.

A 4K TV is currently the most widespread type of television. So, although 4K content is still relatively limited, the chances are that your new TV will be 4K regardless. Lower resolution 1080p Full HD TVs are still available in smaller, budget models, but it’s only worth getting one if the lowest price is your only consideration.

For most people, it’s probably not worth investing in an 8K TV at present. There is very little native 8K content available, so most things you watch will be upscaled to 8K and will not have any extra detail. Plus, you will need to sit so close to see the additional detail in an 8K picture; most people won’t want to do this anyway. If you have a game console that can display 8K content, you might decide that an 8K screen is worth it, but for movie and TV viewing, the extra cost of an 8K screen is unlikely to be worthwhile at the moment.

Cleaning a TV screen is a simple process that you should do regularly to maintain performance and picture quality. In most cases, all you need is a dry microfiber cloth to wipe away dust and fingerprints. You can use distilled water for more stubborn areas, but never use any liquids with chemicals like alcohol or ammonia. Learn how to clean a TV screen without streaks for more detailed step-by-step instructions.

Paul started the Home Cinema Guide to help less-experienced users get the most out of today"s audio-visual technology. He has been a sound, lighting and audio-visual engineer for around 20 years. At home, he has spent more time than is probably healthy installing, configuring, testing, de-rigging, fixing, tweaking, re-installing again (and sometimes using) various pieces of hi-fi and home cinema equipment. You can find out more here.

There are two types of LED TV - edge-lit and back-lit televisions. So what is the difference, and is it important? Find out everything you need to know.

This type of lamp has managed to produce high-quality televisions. But, there have always been disadvantages to this technology, such as poor contrast ratios and color reproduction.

Different parts of the screen can have the blocks of lights switched on or off at any time, which gives the TV a much better contrast ratio than a traditional LCD TV.

Therefore, a back-lit LED TV with local dimming produces a better picture, which helps it to create an image comparable with other TV technologies like OLED.

A downside is that the power consumption of these TVs can be greater than standard LCD or edge-lit televisions – especially those models which use RGB LEDs.

The advantage over an edge-lit TV is that the lighting will usually be more uniform across the screen – eliminating the light-pooling of edge-lit screens.

The lights in edge-lit LED televisions are placed around the perimeter of the LCD screen – and the light they emit spreads across the back of the panel using a series of ‘light guides.’

Paul started the Home Cinema Guide to help less-experienced users get the most out of today"s audio-visual technology. He has been a sound, lighting and audio-visual engineer for around 20 years. At home, he has spent more time than is probably healthy installing, configuring, testing, de-rigging, fixing, tweaking, re-installing again (and sometimes using) various pieces of hi-fi and home cinema equipment. You can find out more here.

Both OLED and LED TVs use thin panels with millions of pixels to deliver crystal-clear picture quality, and there are excellent sets in both categories. The major difference lies in how they light the image.

Looking strictly at picture quality, it’s hard to beat an OLED TV. But there are loads of reasons you might opt for an LED TV instead. One undeniable factor is price. LED TVs start under $500, while even a small OLED will set you back $1,200. LEDs also come in a wider variety of sizes and models, though the options for OLEDs are growing.

LED TVs (left) shine a backlight through layers of filters, diffusors, and polarizers to create a picture. An OLED TV (right) doesn"t need a backlight because its pixels are self-lighting, so the panel design is more simple.

LED TVs are a type of LCD TV. They require many layers to create the picture you see. One of the most important is the backlight, which is made up of small, bright LEDs or light-emitting diodes. This LED backlight shines through a liquid crystal layer, and each liquid crystal pixel acts like a shutter, either blocking the light or allowing it to pass through.

The type and sophistication of the backlight contributes to overall picture quality, especially how well the TV can display dark areas of the picture.

Direct-lit backlights use a grid with a small number of LEDs across the entire back of the screen. These LEDs can"t be independently dimmed, so contrast isn’t as good as more advanced backlights.

Edge-lit TVs use strings of LEDs along either the sides of the screen, the top and bottom, or just the bottom. "Light guides" redirect and scatter the light evenly to produce a more uniform picture. They are thinner than direct-lit TVs. Some use frame dimming to adjust picture brightness frame by frame, while others use local dimming to darken zones as needed.

Higher-end sets use a more advanced type of backlight called full-array with local dimming — FALD for short. Like direct-lit TVs, the backlight covers the whole back of the screen, but FALD sets use a lot more LEDs. They also offer many dimmable zones for wider contrast and more realistic shadow detail than direct- or edge-lit sets.

OLED stands for “organic light-emitting diode.” Unlike the transmissive liquid crystal pixels in an LED TV, an OLED’s pixels are emissive. That means they don’t need a separate light source, like the backlight in an LED TV. It also means that when an OLED pixel is not activated, it emits no light at all. This is what gives 4K OLED TVs the incredible black levels they are known for.

Black levels and brightness are key factors in picture quality, and they are especially important when displaying the expanded contrast range of HDR content. OLED and LED TVs can both do a great job with this, but they have different strengths.

Brightness is one area where high-quality LED TVs have outperformed OLEDs. This year’s OLEDs are brighter than ever before, but they still can’t match t