comparison of led and lcd monitors supplier
If you spend long durations in front of a screen, it"s essential to make the best choice when buying one. Getting a high-quality screen will go a long way in enhancing your gaming, working, and watching experience. Additionally, it will help relieve eye strain even with prolonged use of the screen.
There are tons of screens available in the market today. However, LED screens and LCD screens are by far the most popular. But what is the difference between LCD vs. LED screens?
LED screens feature light-emitting diodes lights installed in the screens. The screens can be volatile or static, with some of them only responding to touch. Other LED screens will display pictures even when turned off.
Some of the benefits of LED monitors nclude enhanced picture quality and local dimming. Local dimming helps to dim down certain areas of your TV"s backlight. This helps to make the screen appear darker and better in displaying blacks.
Local dimming helps a lot in enhancing your screen"s contrast ratios. The higher the levels of the contrast ratios, the more enhanced difference between blacks and whites.
LED backlighting is an essential feature in offering realistic pictures. The features enhance the popularity of the LED screens (check out the Viewsonic TD2230 Review).
The main difference between LCD and LED displays is that the LCD screens come with a layer of liquid crystals. The liquid crystal layer is put between two plates. Images are made when light passes through parts of the liquid crystal.
The liquid crystal part either block or enhance an area which helps to create the image. Most LCD panel types have LED lights that help bring out the image.
Older LCD screens and use Cold Cathode Fluorescent Lamps (CCFLs) to light the screen. The CCFLs use electron discharge and fluorescence to light the screen.
LEDs like the one from our "Dell Computer Ultrasharp 24.0-Inch Screen LED Monitor Review" are taking over the market while LCD screens with CCFLs are fading away. LCD screens are used in watches, some notebook computers, and calculators.
OLED stands for organic light-emitting diodes, and it uses an organic compound to create outstanding high-contrast images - OLED screens are more environmentally friendly. They are also thinner than a standard LED screen as they don"t require a thick LED backlighting behind the screen to illuminate it.
On the other hand, you have QLED screens that are created and patented by Samsung. The QLED screens offer more crisp images as they create light with a shorter wavelength.
The Q in QLED stands for Quantum Dot (see Quantum Dot and IPS). The screens have an additional layer between the LCD screen and the backlight of the monitor. The layer allows light to pass through easily and produce better colors than an ordinary LED screen.
Slimmer design:LED screens to come in a slimmer design than their LCD counterparts. This gives them a sleek and elegant look, and it also takes less space.
Cheaper to run:If you are trying to cut down on energy cost, an LED screen will be a better option between the two as it is more energy-efficient. However, LED screens are more expensive than their LCD counterparts. As such, you can expect to pay more initially.
Better color:If you want to enjoy more realistic images, LED will be the better option. The screen offers you better color than other screens in the market. Additionally, it offers a better contrast, which is the range between the darkest blacks and brightest whites on the screen. The enhanced contrast ensures you end up with the most realistic images.
However, if you are working on a tight budget, you may consider an LCD screen. Besides the cost, LED performs better than the LCD screen in all the other aspects.
If you want to find out the type of screen you already have, you can check out the screen"s model number. The model number can tell you if the screen is an LED or LCD.
When it comes to picture quality, LED TVs look better than older LCD TVs. Manufacturers also make a big deal out of LED backlighting because sets that use the technology are usually more energy-efficient than CCFL LCD TVs. Therefore, the money you save on your power bill could eventually offset the extra cost of an LED TV.
You"ll be happy with the picture regardless of what kind of display you buy. Still, LED TV have a few practical advantages that make them a better purchase than the older LCD TVs.
With an LED light, the pixels are either edge-lit or backlit. As such, the lights behind the screen are designed to light up all the pixels in your monitor at once.
An edge-lit monitor may not be the best for picture quality as the lights are only at the edges of the screen. However, screens with edge lighting have become very popular nowadays as the best budget choice. The edge lights allow for the creation of thin monitors at a low price which enhances their affordability.
If you are working in an office, you may have to spend eight or more hours in front of your monitor. If you keep looking away from the screen due to eye fatigue and strain, it will affect your productivity. The eye strain can also cause headaches to some people.
LED monitors feature better dimming options without sacrificing picture clarity. They also come with features that reduce eye strain, making them the ideal option if you are spending long hours in front of the screen.
Alternatively, you can go for LCD screens that offer arefresh rate of 120Hz or more. The LCD screens also offer a wider variety of viewing angles, which can offer better comfort.
Apart from watching movies and working, you can also get a monitor for gaming. Whether you are a gaming enthusiast or gaming for fun, you want a monitor to offer you the best picture clarity.
A perfect monitor for gaming should offer you a high refresh rate, low lag, and low response times. A screen response time refers to how fast the pixels change from one image to the next. Lag refers to the delay you experience between pressing a button and seeing the corresponding action on your screen.
You can trust an LED monitor to offer you the best resolution for the most precise and crisp images. This enables you to enjoy clear and lifelike images.
When choosing between LED and LCD monitors, there are several factors to consider. Besides the backlighting technology, you should also consider the panel type - see also what types of monitors are there. Various panels have their benefits compared to others.
LED monitors tend to be more expensive than LCD screens, thanks to LED technology being newer and featuring pricier components. Additionally, there is a newer form of LED called the OLED, which stands for Organic Light-Emitting Diodes. These OLED displays are extremely expensive, especially at high resolutions. LED technology, on the other hand, is extremely cheap and readily available.
Are you lost on the best choice between LCD and LED monitors? If you spend a lot of time in front of your monitor, you should ensure you end up with the best quality screen. This will ensure that you get high-quality images and also minimize eye strain.
In the battle between LCD and LED displays, LED comes out as the better option. It offers more crisp and clear images, and it also comes with a sleek and elegant design. However, it can be a little expensive. If you are working on a budget, LCD monitors can make a perfect choice.
LED technology has improved drastically in recent years improving picture quality while driving costs down. LED is a bigger investment up front but generally has a lifespan of about 100,000 hours. LCD is cheaper and generally more familiar. A LCD screen typically has a lifespan of about 50,000 hours.
Sort of. Older technologies like LCD technology and Plasma displays are becoming obsolete due to the intrinsic properties of LEDs like brightness, efficiency, maintainability, and sustainability.
LCD screens emit blue light and thus negatively affects not only vision but also overall health. Continual extended screen time mainly can impact your eyes in two major ways. When we look at a screen, our blink rate drops significantly, thus causing digital eye strain.
LED and LCD monitors share a lot of the same scientific qualities. For instance, they each consist of liquid crystals that are used to emit light through a screen and present specially designed images to the human eye. But the way in which these different technologies execute this objective is where they differ from one another. Depending on their main applications, industrial computer monitors can feature either LEDs or LCDs. Keep reading to learn the differences between the two, so you can determine which one is suitable for your specific commercial or industrial applications.
The relationship between LED and LCD monitors is a little bit complex. All LEDs are technically LCDs. LCDs aren’t the same as LEDs. However, both have similar technical properties even though they’re not entirely the same thing and can each be used for various applications.
Eyestrain is one of the most serious and pervasive health risks associated with and caused by ongoing computer and technical device usage. Whether you spend most of your time working at a desk, gaming, or mindlessly scrolling through social media, staring at a screen for endless hours can cause fatigue, blurred vision, headaches, watery or dry eyes, and a string of other physical symptoms.
Both LED and LCD monitors utilize liquid crystals to present images on a screen with the main difference being the type of backlighting that they use. LCD monitors feature fluorescent backlighting, whereas LED monitors use light emitting diodes. The latter has been proven to significantly reduce symptoms of eyestrain by providing a much wider viewing angle and more adjustability. This improves user comfort for long periods of time without causing image distortion.
By far, LED monitors are a lot more suitable for gaming. Just avoid LED screens with edge lighting, as these are very monolithic and don’t allow for any adjustability whatsoever. You have to be sitting directly in front of the screen the entire time for optimal visibility, which can put a lot of strain on your neck shoulders, back, and eyes. Opt for a full-scale LED monitor that’s customizable and adjustable according to your sitting position, height, and optimal viewing angles instead.
OLED, which stands for organic light-emitting diode, plays up the energy efficiency aspect of regular LEDs by allowing individual pixels to be shut off at any given time. OLEDs are also more space efficient than their LED predecessors as they can be made in a much thinner design and the pixels only use power when they’re in use.
QLED, which stands for quantum light-emitting diode, consists of quantum dots. These miniscule phosphor particles become illuminated when a backlight is shone directly on them, which enhances the brightness capabilities of a regular LED.
LCD and LED industrial and commercial monitors consist of liquid crystals and some form of backlighting. Fluorescent backlighting found in industrial LCD monitors consume a lot of energy and place a great deal of strain on the eyes.
Commercial LED displays, on the other hand, softer light-emitting diodes that reduce energy consumption even when they’re turned on for long periods of time and reduce the rate of eyestrain without compromising the video and image quality.
Nauticomp Inc.is a world-renowned designer and distributor of high-efficiency, low energy consumption, and durable LED and LCD displays that are capable of withstanding all kinds of weather conditions and applications. Contact us today to learn more about our products.
From panel technology to refresh rates, there are a lot of things to consider when looking for a new gaming monitor. To aid you on your journey for the perfect setup, we"re breaking down two of the most common display technology terms: LED and LCD. Here"s what you need to know about LED and LCD screens, what the terms stand for, and how they factor into modern gaming monitors.
LCD stands for liquid-crystal display, which refers to how the monitor works. Behind the screen, liquid crystals are sandwiched between two layers of glass and used to change the colors of pixels to create the images that you see. The whole process is a lot more complicated, but that"s the gist of how LCDs function.
In the past, some LCDs were backlit by CCFLs (cold-cathode fluorescent lamps). LCDs with fluorescent backlighting have been around longer, so if you can find one, they will be cheaper than LED monitors. However, if you"re a gamer looking for decent refresh rates and response times, it"s going to be hard to find a monitor with fluorescent backlighting. They"ve almost completely been replaced by LCD monitors with LED backlights.
LEDs work in a similar way; in fact, you can consider LEDs a subcategory of LCDs. The only difference between some LCDs and LEDs is the type of backlighting: LEDs use LED (light-emitting diodes) backlighting.
In contrast to fluorescent backlighting, LED backlighting generally provides brighter colors and sharper contrast. The monitors are also thinner in size and, in the long run, more energy efficient than LCDs with fluorescent backlights. LED backlighting is the newer technology and the current standard for monitors with high refresh rates and fast response times. When you see LCD in product descriptions, they"re almost always LCD monitors that use LED (as opposed to fluorescent) backlighting. For example, BenQ"s EL2870U monitor is listed as an LCD, but it"s an LCD with LED backlighting.
There are different types of LED backlighting: edge-lit and array-lit. In edge-lit monitors, the lights are placed around the edges of the monitor. Light guides are then used to diffuse the light evenly across the screen. In array-lit monitors, lights are placed behind the screen in a pattern.
The tricky thing, however, is that it"s pretty much impossible to tell what type of backlight and how many backlights a monitor has based on a typical product description. Some manufacturers will share that info, but generally they won"t unless the backlight setup is a premium feature you"re paying for.
For example, some edge-lit and array-lit LEDs have local dimming capabilities, a feature that can selectively dim certain zones of LED lights. Local dimming improves contrast ratio and provides deeper blacks in dimly lit scenes. These monitors, however, tend to be pricey. Some well-reviewed options include the Samsung Odyssey G7 and Philips Momentum 436M6VBPAB, both of which are edge-lit monitors with partial local dimming capabilities. The Acer Predator X35 is an (expensive) full-array monitor with full local dimming (FALD) capabilities.
You won"t have much of a choice between LED or LCD. Most monitors, regardless of whether they"re marked as LED or LCD, will use LED backlights. LED backlights became the new standard because they allow manufacturers to make thinner, more energy-efficient monitors with better graphics. It"s not worth going out of your way to find an LCD with fluorescent backlighting, unless you really, really hate LED lights.
Which backlights a monitor has isn"t as important as other factors such as panel technology, refresh rates and response time, G-Sync vs. FreeSync, and HDR --those are the characteristics you should pay more attention to when choosing a monitor. If you"re not looking to break the bank, a couple of great LED monitors at excellent price points we can recommend are the Asus VP249QGR, a nice budget 1080p monitor, and Acer XF250Q Cbmiiprx 24.5, a well-reviewed budget 240Hz monitor.
Check out our guide to the best cheap gaming monitors for more budget options; plus, see our picks for the best monitors for PS5 and Xbox Series X, best 144Hz monitors, and the best 4K gaming monitors for more LED displays worth picking up.
One of the most common questions we’re asked when assisting businesses establish their digital signage systems is whether an LED or an LCD display is best for their business. The answer is always contextual to the clients’ needs. It starts by clarifying what the difference between the two actually is.
When we’re talking aboutconsumer products such as computer monitors and televisions the first thing to know is that an LED screenis an LCD screen, but an LCD screen is not always an LED screen. An LED monitor or television is just a specific type of LCD screen, which uses a liquid crystal display (LCD) panel to control where light is displayed on your screen.
For the display to be considered an LED screen, it means it is utilising ‘Light Emitting Diodes’ to generate the light behind the liquid crystals to form an image. A non-LED LCD screen has backlights (called fluorescent lamps) behind the screen that emit white light which cannot pass through the liquid crystals until an electric current is applied to the liquid crystals which then straighten out and allow light to pass through.
This is where it can get easy to divert away from giving clear advice on whether as LED or LCD display is best for your business, because consumer displays differ from commercial displays. We are not trying to give the reader direction on which monitor is best for their gaming set-up, but which screen type is ideal for communicating your business’ messages.
Commercial LED displays are typically referred to as Direct View LED. This is because they use LEDs as the individual pixels that make up the image itself. Using a surface array of LEDs removes any need for a liquid crystal display panel, which carries noticeable benefits for particular uses.
While LCD flat panels are available in resolutions of 1080P and 4K UHD, Direct View LED displays are measured by pixel pitch. Pixel pitch is the distance from the centre of one pixel cluster to the centre of the next pixel cluster in an LED screen. The smaller the pitch, the closer viewers can get to the display before they see the pixels themselves. Outdoor configurations may have a pitch of 10mm to 40mm, as they are viewed at longer distances.
For use indoors, where viewers would be closer to the display, a pitch of 10mm or less would be required, some have even sub-1mm pixel pitch. When considering Direct View LED displays, it is important to know the minimum viewing distance required. Multiplying the pixel pitch by 1,000 gives you a good rule of thumb for the minimum viewing distance.
Direct view LED displays can either use discrete oval LEDs which are basically one single self-contained diode, or Surface Mounted Device (SMD) LEDs. SMD LEDs contain 3 individual light-emitting diodes bunched together. Either way, it’s the light-emitting diodes that create the images you see on screen. This is explained in the image below, courtesy of LG Electronics
Commercial LCD screens are more closely related to their consumer counterparts like TVs but there are still differences to be aware of. It is not advised to simply purchase an LCD TV from your local electronics retailer and install it in a public setting and expect it to function as desired.
Both have been designed to be used differently. Commercial display manufacturers understand that their displays are going to be exposed to far different conditions than a living room television will be. The componentry in a commercial display is optimised to allow for the display to be on 24 hours a day, all year around. They take into account diverse environments such as hot kitchens, high foot traffic, and bad weather,ensuring the product won’t fail in such exposures. The addition of more durable and resistant technology means commercial LCD displays will typically be priced higher than their consumer cousins.
Brightness: When deployed in areas with strong ambient lighting, even the best LCDs can appear washed out and difficult to view, especially when from an angle. Direct view LEDs for outdoor applications can reach 9,000 nits, making them a brighter and better choice for most outdoor applications.
Contrast: Direct View LEDs can turn off pixels that aren’t being used which allows for a higher contrast and therefore a richer image in varied lighting conditions.
Size and shape: Direct view LED-based walls can be flat, curved, wrapped around pillars and more. With no size limit or set aspect ratio they can be used more flexibly than LCDs. Plus, panels have no bezels which means you can piece together Direct view LEDs to create large and uniquely shaped displays with no visible interruptions between units.
Lifespan and servicing: Most direct view LEDs are rated to last 10 years, compared to a typical 5 years for LCDs. Further, they can be easily replaced on-site, reducing maintenance costs.
Tougher: If you’re using an LCD for any outdoor application or one where the unit has to be protected from extreme temperatures or humidity, you’re going to need to include an enclosure and have an understanding of how to properly seal and vent the unit. Outdoor Direct view LEDs, on the other hand, are purpose-built to withstand harsh environments.
Price: The higher upfront cost of Direct LEDs could be the biggest sticking point when it comes to pitching a video wall. While prices have been steadily dropping, Direct view LEDs are still more expensive than LCD alternatives. However, make sure you consider the lifetime cost of the solution and other benefits mentioned above before you discount direct view LEDs.
Functionality: LCD screens can offer a wider range of functionality when it comes to set-up, display settings, and day-to-day control. There is also the addition of touch screen options for LCD displays which are a fairly sought-after feature these days.
Resolution: Whilst the fine pixel pitches available in direct view LEDs today make for impressively resolute images, LCD screens still boast are more uninterrupted image when viewed up close, particularly with the modern 4k displays. This makes them a better option for smaller retail stores, quick service restaurants or office meeting rooms.
Screen brightness is impressive in a variety of locations and from any viewing angle, resolution is extremely clear from a viewing distance of 5ft and above.
As earlier stated, intended use for the display will determine which format you invest in. In outdoor environments or areas with high ambient lighting, brightness is the key concern. For indoor environments, the key concern is image quality and contrast. It’s also imperative to consider the usage environment and what the screen may be exposed to with regards to weather, temperature, humidity, direct contact and other factors. If you have a good understanding of your requirements for content, application, perception and budget then your first move should be to contact a supplier, like Black Lab Design, and we will be able to assist you with designing, building and installing the perfect digital display solution for your business.
The two big choices for monitors are liquid crystal display (LCD) and light-emitting diode (LED) models. When considering LCD vs LED monitors, there are some important differences you should know about. One important distinction comes from the technology itself. All monitors with LED backlighting use LCD in their displays, but not all LCD models have LED backlighting.
It may be tempting to go for the LCD monitor over one with LED backlighting, especially once price factors in. However, while there may be a lower price initially, there are reasons to consider investing in LED backlighting. In terms of lifespan and performance, LED monitors have LCD monitors beat. Learning the difference means not just saving money, but improving your quality of life.
LCD monitors are made by suspending a layer of liquid between two pieces of polarized glass. The monitor does not produce light on its own. Instead, electric currents align the crystals in the liquid layer, allowing or blocking light as necessary. There are three main panel types for LCD monitors. These panel types are twisted nematic (TN) panels, vertical alignment (VA) panels, and In-Plane Switching (IPS) panels.
Many LCD monitors have LED backlighting, and previous models may use cold cathode fluorescent lamps (CCFL) for backlighting. Owning an LCD monitor without LED backlighting has certain benefits and drawbacks as opposed to owning one with LED backlighting.
LCD monitors will generally be cheaper than monitors that also have LEDs. LCD monitors are generally not as energy efficient and larger and thicker than LEDs. They have no local dimming, and less illumination (this is especially apparent in dark rooms). They also have a shorter lifespan, and are difficult to repair and maintain.
LED monitors are lit up with light-emitting diodes (LEDs). These small bulbs behind the screen can vary in configuration, either with fully array backlighting or just edge lighting. Mini-LEDs can allow for even finer lighting control. Evenly distributing this light behind the monitor provides even lighting across the entire screen. Some even have HDR (high dynamic range) displays, which can dim parts of the screen depending on your needs.
Just like a straight LCD monitor, there are benefits and drawbacks to owning an LCD Screen with LED backlighting. LED LCD Monitors are energy efficient, thin, and lightweight. Since they’re so thin, they generate very little heat and still produce a short response time. The display has high contrast, constituent brightness, and a long lifespan. Some LED monitors have backlight dimming options for optimal contrast and color quality. LED monitors also contain no mercury in them.
However, this doesn’t mean they don’t have drawbacks of their own. Some edge-lit LED monitors can be hard to see from certain viewing angles. If the monitor’s viewed straight ahead, this shouldn’t be a problem. LED LCD monitors also cost more than LCD monitors. However, this is balanced out by total lifespan and cheaper maintenance costs.
When comparing LCD vs LED monitors, the major advantage of LCD monitors is their initial purchasing price. However, that lower price is mitigated by a shorter lifespan. LED monitors have a longer lifespan than LCDs, so in terms of overall value, they still win. If you’re getting the monitor for gaming, the LED monitor will be a better choice. This is due to the greater color accuracy, dimming capacity, and available viewing angles.
Samsung QB65B-N QBB Series. The QB65-BN QBB Series comes with a 65" LED-backlit LCD display in stunning 4K definition. It also comes with a 3-year manufacturer warranty. Normally a monitor like this costs $2,519 full price. But at Rackfinity, we currently have it on special for $1,610 (saving over $900!)
Modern technology is incredible---a marvel of ingenuity, creativity, and talent. The technological revolution of the past century continues to change the world, mostly for the better. Alongside technological innovation, a new vocabulary exists to describe technological advances.
Nowhere is this clearer than in the television market. Understanding terminology is critical to getting the best quality at a reasonable price when upgrading your TV.
A Liquid Crystal Display (LCD) is one of the most enduring and fundamental technologies found in monitors, televisions, tablets, and smartphones. TVs and monitors once used cathode ray tubes (CRTs) to provide the image on your screen. But CRTs were bulky and contained dangerous chemicals. Once LCDs became affordable, they replaced CRTs.
An LCD features a panel of liquid crystal molecules. The molecules can be induced using an electrical current to take certain patterns which either block or allow light to pass through. An LCD TV or monitor has a light source at the rear of the display, which lights up the crystals. LCDs commonly use Cold Cathode Fluorescent Lamps (CCFL) to provide the TV or monitor backlight.
To provide a color image on your screen, the LCD has red, green, and blue sub-pixels in each screen pixel. Transistors within the display control the direction of light each pixel emits, which then passes through either a red, green, or blue filter.
Light Emitting Diodes (LEDs) are small semiconductors that emit visible light when an electrical current passes through them. LEDs are typically more efficient and longer-lasting than traditional lighting.
While manufacturers often use "LED" in place of "LCD," an LED TV is also a type of LCD. Instead of CCFL tubes to provide the LCDs backlight, rows of LEDs provide the backlight. The LEDs give better control of the light, as well as greater efficiency as it is possible to control individual LEDs.
For accuracy, a TV or monitor description should read "LED-Backlit LCD Monitor." But that is a) a mouthful and b) doesn"t allow for the creation of a separate marketable product. That"s not to say there aren"t differences between the two.
However, both LED and LCD monitors have different technologies that make certain panels more appealing to gamers, film buffs, designers, and so on. You should also note that on older screens, the difference between an LCD and LED TV or monitor is more pronounced, due to the relative age of the two lighting options.
There are several different types of LED and LCD monitors. When you"re trying to buy a new TV or monitor, understanding the differences and the terminology will help you bag a better deal. Here are some of the most common variations of the LED and LCD panels.
An Edge-Lit LED TV or monitor has its LEDs arranged around the rim of the display, behind the LCD panels facing the screen. The Edge-Lit option allows for slimmer designs, uses fewer LEDs, and can bring the cost of a new screen down. Light reflects across the screen uniformly to create the image.
One downside to an Edge-Lit screen is the dark contrast. Because the Edge-Lit LED display is brightest closer to the edges, color uniformity and black levels can become an issue, with some areas appearing darker than others.
A Full-Array LED display uses a grid of LED lights behind the LCD. The LEDs shine outwards directly towards the LCD, creating a bright and uniform picture. Full-Array LED panels enjoy the efficiency benefits of LEDs.
For the best image reproduction, a Full-Array LED display may include local dimming. Local dimming means that groups of LEDs can switch on and off as required to provide better overall control of the brightness level.
LEDs are often referred to as emitting white light. Actually, LEDs produce light closer to yellow than a pure white. That difference can create a color shift in the image you see on your screen. To improve on this issue, some manufacturers replace white LEDs with groupings of red, green, and blue (RGB) LEDs.
The display uses advanced electronics and programming to control the RGB LEDs accurately, along with more LEDs. The combination increases the cost of an RGB LED screen significantly for what most viewers would consider a marginal improvement. RGB LED displays never became mainstream because of their higher cost.
Organic Light-Emitting Diodes (OLED) are an advanced form of LED lighting found in some LED monitors. Each pixel of an OLED TV can glow or dim independently, resulting in much better black levels, extremely sharp colors, and better contrast ratios. The majority of OLED TVs and monitors have excellent viewing angles and color quality.
Without a doubt, OLED TVs and monitors (and even smartphone screens) have incredible color depth. But that does come at a cost. The latest generation of flagship smartphones all feature OLED screens, and it is a contributing factor to their massive cost. Another consideration is power. An OLED screen consumes more power than other LED-backlit screens and standard LCD screens.
The acronyms continue with QLED, which stands for Quantum Dot LED. Samsung"s QLED improves color accuracy as much as 90-percent from a regular LED TV or monitor and can hit the high levels of brightness and color depth that HDR requires.
So, what is a quantum dot monitor? In short, quantum dots are semiconductor nanocrystals that absorb light at one wavelength and output it at a different wavelength. The LEDs in a QLED emit all of the blue shades the picture requires. But a blue picture isn"t what consumers want. The quantum dots refract the blue LED light into the green and red shades needed to complete the picture.
A single quantum dot monitor or TV contains billions of semiconductor nanocrystals. Those nanocrystals give QLED screens outstanding black range and color depth, as well as excellent color saturation and contrast.
Just as there are types of LED monitor technology, so is there LCD monitor and TV technology, too. The type of LCD tech powering your screen makes a difference to the final picture. Here"s what you need to look out for.
Twisted nematic (TN) was one of the first LCD panel types, dating back to the 1980s. TN panels have fast response time. Most of the fastest gaming monitors use a TN LCD panel to offer exceptionally fast refresh rates, up to 240Hz. That level of refresh isn"t necessary for most people, but it can make a difference for top-level gamers (for instance, in reducing motion blur and image transition smoothness).
Vertical alignment (VA) panels originated in the 1990s. The liquid crystals in a VA panel are aligned vertically, as the name suggests. The vertical alignment structure allows VA panels to produce much deeper blacks and more vibrant array of other colors in comparison to a TN panel. A VA panel usually has better contrast, too.
While a VA LCD panel has a better color range than a TN panel, they also have a slower refresh rate. They also usually cost more and, as such, are rarely marketed toward gamers. Between TN panels and IPS panels (read below), VA is the least popular LCD panel technology.
In-Plane Switching (IPS) panels are considered the best LCD panel technology for a variety of reasons. An IPS panel offers very wide viewing angles with very fast refresh rates. They"re not as fast as a TN panel, but IPS panels are widely available at 144Hz. At the time of writing, the first few 240Hz IPS LCD panels are hitting the market, although they are extremely expensive for a marginal gain.
Color-wise, IPS panels are excellent. High-quality IPS LCD panel prices continue to fall. However, there are several reasons why you shouldn"t buy a ridiculously cheap IPS gaming monitor.
The type of LCD panel you need depends on its use. Gamers want fast response times and rich depth of color, which is why IPS panels are a great option. If you"re more concerned about picture quality for your favorite films, an OLED panel will perform extremely well.
Still, now you know the terminology behind LCD panels and the pros and cons to each type, you can make an informed decision for your TV or monitor upgrade. But wait, the type of LCD or LED panel isn"t the only thing to consider. Take a moment to learn about the differences between 4K, Ultra HD, and 8K screens.
People of a certain age will remember the size and heft of a cathode-ray tube TV or monitor. These heavy appliances required sturdy TV stands and were difficult to move. The liquid-crystal display TV quickly displaced its CRT-based relatives. These screens were much thinner and lighter. The smaller size made it possible to develop portable laptop computers.
LCD screens are a ubiquitous technology. Devices from watches to appliance displays use liquid crystals to share information. These crystals do not produce light on their own. A small screen like a watch may have a reflective layer that directs ambient light. A monitor or TV must be backlit by a more robust light source.
The source of the backlighting creates the distinction between LCD and LED screens. Older LCD monitors use fluorescent lights. Liquid crystals in LED screens are backlit using more efficient light-emitting diodes.
Scientists have studied the properties of liquid crystals since their discovery in the late 1800s. However, it was not until the 1960s that people learned how to incorporate them in displays. In an LCD screen, two pieces of polarized glass sandwich a layer of liquid crystals. As electric currents pass through the crystalline layer, the crystals can block different light frequencies.
In a simple screen like a digital watch, the blocked light creates a black display. In a TV or computer monitor, more advanced technology allows for pixels in a wide variety of colors.
Backlit displays require a light source. The first generation of LCD screens used fluorescent lights for this purpose. These were some of the longest-lasting and efficient light sources of the time. For this reason, displays that use fluorescents continue to bear the LCD-screen label.
Like other CCFL light sources, the fluorescent lights in LCDs are manufactured using mercury. Environmental concerns led researchers to look for a better lighting option. The next generation of laptops and monitors incorporated light-emitting diodes.
LED screen technology is changing rapidly. However, most LED displays are still a variation in liquid-crystal technology. They have replaced the less efficient CCFL light source with the cool light of LEDs.
Replacing this light source has several benefits. LEDs last significantly longer than CCFLs and run more efficiently. They are a more responsive light source that offers higher clarity and contrast. For a clear picture and fast gaming, LEDs are a smart choice.
Using LEDs also alleviates some of the concerns around CCFLs. Light-emitting diodes do not contain mercury, so their disposal is less complicated. These lights are also dimmable, which can reduce eyestrain in office settings.
LED technology continues to evolve, producing more refined displays. The Q in QLED stands for quantum. In addition to the traditional liquid-crystal layer, these screens incorporate a film of quantum dots. These dots emit light at a molecular level for deeper colors and higher contrasts.
Organic LED displays represent something new in viewing technology. A traditional LED monitor is an LCD screen with an LED light source. OLED TVs do not use liquid-crystal technology. Instead, pictures come from millions of embedded LEDs. These tiny lights produce clear images on the thinnest screens on the market.
Right now, the type of monitor you choose is a matter of personal preference. If cost is an issue, traditional LCDs offer performance levels that are adequate for most needs at a lower price. However, to work with the latest technology, you will want to consider an LED-powered display.
Technology companies are moving toward LEDs as the standard technology for TVs and computer monitors. Their efficient operation, faster response rate, and lower environmental impact make them an attractive choice. Soon, it will not be a matter of choosing between LCD and LED displays. Instead, you will have to consider what sort of LED screen you want to watch.
When you are looking to purchase a monitor for your computer, you will come across two categories of monitors broadly. They are LCD and LED monitors, and it is going to be quite confusing for you to decide which one to buy unless you have proper knowledge about them.
Both types of monitors have their equal share of pros and cons, and they have several variants to choose from. In this article, we will discuss all the different aspects of LCD and LED monitors so that you can decide which one is best for you.
An LCD monitor has thousands of pixels that can display light. LCD stands for liquid crystal display and the pixel has different layers which make the monitor work.
In the first layer, a polarizing film sheet uses the light waves from behind. It filters out the vertical light waves and only the horizontal waves are left.
In the second layer, there are more than three layers. In two of them, you will find protective glass with liquid crystal on the inside. The crystals keep them in place and prevent them from getting damaged.
Finally, there is a fourth layer that is responsible for color changes. It has three light filters on each pixel that provide blue, green, and red colors.
Now let’s see how LCD monitors work. During the absence of electricity, liquid crystals can rotate and twist to up to 90 degrees. This further lets the light flow through the crystals. During this process, the light will pass through the second filter and it will go through the green, red, or blue light filter. When there is electricity, liquid crystals block the light from behind which can turn the pixel off. When you look at the LCD screen, there are individual pixels of different colors.
There is no burn-in issue with LCD monitors and hence, they are best for gamers. Burn-in issue refers to an image getting stuck on the screen when it is shown for too long.
TN Panels:One of the first LCD monitors was of TN panel. Twisted Nematic has improved response time and is being used in some of the fastest gaming monitors. It also supports an extremely fast refresh rate of 240 Hz. With this refresh rate, there will be reduced motion blur as well as image transition smoothness.
VA Panels:Also called the vertical alignment panel, this came into existence in the 1990s. The VA panel is aligned vertically and has liquid crystals. It can produce deep blacks with a vibrant array of colors. One of the best things about the VA panel is that it can also provide better contrast. However, compared to the TN panel, it has a slower refresh rate. Another disadvantage is that it can cost more and is not a popular LCD panel technology.
IPS Panels:The best LCD panel technology is the IPS or in-plane switching panels. It can provide wide viewing angles and supports faster refresh rates. Even though it is not as fast as TN panels, the IPS panel comes with a refresh rate of 144 Hz. The IPS panel also provides excellent color reproduction.
Both LCD and LED monitors work in the same way. However, LED or light-emitting diodes come with LED backlighting. With LED backlighting, there will be sharp contrast and bright colors. Additionally, LED monitors are also slim in size and make sure there will be maximum energy efficiency.
LED backlighting comes with a higher refresh rate so that there will be a fast response time. There are many types of LED backlighting like array-lit and edge-lit that help to provide the perfect image. Array-lit monitors are behind the screen and edge-lit monitors are around the edges. You can even find the one that can come with local dimming capabilities for deeper blacks.
Edge-Lit LED:One of the best things about Edge-Lit LED is that it comes in a slim design. It uses fewer LEDs that help to lower the new screen cost. An Edge-Lit LED monitor has a rim of LED on the display while facing the screen. This makes sure there will be uniformity of screen that helps to create the image. However, it does come with a disadvantage. It has dark contrast and features the brightest closer on the edges. This can lead to black levels and color uniformity. It can provide some areas looking darker than others.
Full-Array LED:In the Full-Array LED display, there is a grid of LED lights right behind the LCD. It can create a uniform and bright picture as the LEDs shine outwards. Even full array LED panels offer efficiency benefits of LED. An advantage of having this type of monitor is that it can come with local dimming. It helps the group of LEDs to switch on and off when you need it. This helps to provide optimum brightness level as well as control.
RGB LED:LEDs don’t produce pure white light. However, it is closer to yellow. When there is a difference, it can lead to a color shift in the image. Owing to this, some manufacturers have come up with white LEDs with groupings of RGB (red, green, and blue) LEDs. When there is a combination of RGB LED colors, it helps to provide pure white so that there will be true and clear colors. RGB LED uses advanced programming and electronics for vivid colors. This can lead to an increase in the cost of the RGB LED screen.
OLED:An advanced form of LED lighting is OLED. Organic Light-Emitting Diodes can dim or glow independently so that there will be better black levels. It also helps to improve the contrast ratio and make sure there will be sharp colors. Additionally, OLED monitors and TVs come with excellent color quality and viewing angles. In this type of monitor, you will find a high dynamic range programming for better color accuracy. It has a better color depth making it perfect for a smartphone screen. However, it consumes a lot of power and is expensive.
QLED:Quantum Dot LED or QLED improves color accuracy by 90% compared to a regular LED monitor. With it, there will be high levels of color depth and brightness. Quantum dots are in the form of semiconductor nanocrystals that provide different wavelengths. It reflects the blue LED light into red and green shades for a complete picture. In a single Quantum dot monitor, there are billions of nanocrystals that give outstanding color depth and black range.
For gaming, you need a monitor that has a low response time and a high refresh rate. Response time is the time a monitor takes to change pixels when it moves from one image to another. High refresh rate is needed to avoid any lag issue. On all these parameters, LED monitors score higher than LCD monitors, and on top of that, the picture and video quality and clarity are better in LED monitors.
The primary difference between LED and LCD monitors is the picture quality. LED monitors have far better picture quality than LCD monitors. You will understand it only when you play high-quality videos or play high-end games. Starting from sharper and clearer picture to faster rendering and refresh rate, LED monitors score over LCD monitors in terms of picture quality.
LED monitors are more energy-efficient than LCD monitors. The light-emitting diodes consume less power. In fact, if you compare the energy consumption, an LED monitor of size 32-inch will consume 10W less power than an LCD monitor of the same size. The bigger the size, the bigger will be the difference in power consumption.
The LED monitor has a lifespan of 50,000 hours, while the lifespan of an LCD monitor is around 30,000 hours. Naturally, the longevity of LED monitors is longer, and hence, it is compensated for in its price. Additionally, LED monitors are thinner and lighter than LCD monitors of the same size.
Except for burn-in issues and cost, LED monitors beat LCD monitors on all parameters. Therefore, if budget is not an issue for you, an LED monitor should be your first priority. As a matter of fact, if you are buying a monitor for gaming and video streaming, there is no alternative to an LED monitor. However, if you are buying a monitor for regular work and there is a budget constraint, you can do it with an LCD monitor pretty well.
In the world of digital signage, there are two prominent display technologies: LCD and LED. There’s also a considerable amount of misconception about these technologies and how they relate to each other or work together. The blame for much of this confusion can be attributed to the advent of LCD TVs with LED-backlighting technology, so let’s clear that difference up before we move on.
With any digital display, you must have a well working light source so that you can see the picture brightly. Until very recently, TVs have always been backlit—that is, illuminated from behind the display monitor. For a long period of time after television sets were invented, this was done by firing electrons through a “gun” to the screen (tube and projector TVs). In the early 2000s, LCD TVs were backlit by fluorescent bulbs. More recently, however, TV manufacturers began using LED technology as the light source for flat-screen LCD TVs, as this method provided more versatility and uniform picture lighting, therein lies some of the confusion.
As picture displays, there are many differences between LED display features and LCDs. Given advances in LED display technology—and drastically lower cost—both display types can be viable options for a variety of interior spaces. And of course, each has benefits, and each has limitations. To determine the best display for a digital signage project, it’s critical to understand exactly how each display type will perform and why one is better than the other in a given situation. It’s important to compare, not only cost, but also factors such as brightness, durability, size, resolution, vibrancy, and many more features that are on the market.
LED stands for light-emitting diode. By definition, LEDs provide their own light. Once reserved for large-scale, exterior digital displays, direct-view LED signage has emerged as a greatly improved, widely applicable medium, now suitable for virtually all display installations, both indoor or outdoor. In the digital signage industry, direct-view LED displays have now become the norm and work well together.
LCD stands for liquid crystal display. This type of display uses light-modulating properties of liquid crystals. As referenced above, liquid crystals don’t produce light directly; instead, they use a backlight to produce images on the screen. LCDs are used most often in interior applications, where users are in proximity to the screen. With this display technology, ambient light is usually limited and controlled.
Typically, LED displays have a higher up-front cost than LCDs; however, unlike LCDs, LED displays are rugged and durable, even in the most inhospitable environments. Additionally, they can be upgraded and retrofitted relatively easily. For total cost of ownership and longevity, the better option is the LED.
Brightness is typically measured in NITs. One NIT is equivalent to one candela per square meter. The brightness for LED displays ranges from hundreds to thousands of NITs. LCDs have a much lower brightness range feature. LED displays are able to compete in well-lit areas, both inside and outside. In contrast, competing light will severely impact an LCD; many times, this renders the picture unviewable.
While LED and LCD displays can both render most types of content, there are some drawbacks to LCDs. They can sometimes hold the “memory” of an image, and leave behind a residual imprint referred to as “image persistence.” It’s caused when a still image remains on the screen for too long. The colors become “stuck” in place. When the display tries to shift to another color, the crystals don’t want to budge. The result is a color that is slightly skewed from the intended one. LED displays do not encounter this issue.
Video walls are one of the most popular ways to use digital displays in interior spaces. From entertainment venues to other various retail spaces on the market, video walls have wide appeal. This makes the setup more complex than single screens, so it’s essential to have the right screens. LEDs are typically the preferred display for video walls. They are seamless, tiling together with no bezels. In a well-installed application, video walls have excellent uniformity and the widest viewing angles. LCDs can be tiled, but their bezels cause gaps and visual barriers. While there are LCDs with narrow bezels, small seams are still visible, unfortunately.
An LED display can be any size. There are no inherent limitations. They can also be curved, concave, or convex. They can even wrap completely around a pillar for a 360-degree effect. LCDs are typically only available in the standard sizing set by the manufacturer.
SNA Displays is a global manufacturing leader in LED video displays. We offer fully customizable LED products, thereby providing you with the most impact on your messaging. To learn more about how LED signage can power your digital display project, view our portfolio.
So, you’re thinking about investing in digital signage solutions for your business. There’s a reason why digital signage is popping up everywhere. It’s dynamic, eye catching and can have a direct impact on the bottom line. One study showed that advertised products marketed with digital signage see a 26% increase in dollar sales on average.
But how do you know which technology is right for your project? As we look at digital signage solutions, there’s one question that always seems to pop up. What’s the difference between Direct View LED and LCD displays?
LED and LCD displays are both good technologies, and which is better depends on your application. LCD is a liquid crystal display. Commercial LED displays are a grid or group of Light-Emitting Diodes or LEDs that make up the image itself. To make things even more confusing commercial, or Direct-View LEDs, are actually very different than their consumer LED cousins. Here are the basics to help you understand what’s the difference between LED and LCD displays and which is better for your project.
LCD displays are an option for either indoor or outdoor signage. The LCD screen is a series of layers, like an onion. LCD displays have lighting on the base layer. Then comes the LCD sheet, which is a liquid housed between two plates. On top is a protective glass layer. If the display is meant for the outdoors, a final coating is added to protect against the elements- whether they’re natural, like weather, or human-caused, like vandalism.
Here’s where the difference starts to get muddy. LCD screens can be back-lit by LEDs. Meaning the lighting layer consists of many little LEDs that light the LCD sheet from behind. In the consumer world, these are marketed as LED screens. While accurate, it’s not the same as a commercial LED screen. When we talk about commercial LED’s we’re talking about Direct View LEDs, but we’ll get into that more later.
LCD displays come in Full-HD (1080p) or Ultra-HD (4K) resolution. 4K resolution has four times the pixels as 1080p. What does this mean in the real world? At about thirteen feet away from a 98 inch 1080p display, you can begin to see pixels. With 4K resolution, this decreases to seven feet before seeing pixels.
You can stand closer to the display because the pixel density is higher. Usually when the pixel density goes up, so does the price. So, if you have something like a digital menu behind the order counter, you may save money by going with a 1080p display without hindering the customer experience. Alternatively, if you have a display next to elevators in a hotel 4K may enhance the customer experience since they’ll be closer to the display when they look at it.
Direct View LED use LEDs as the individual pixels that make up the image itself. Pixel pitch is an important concept with Direct View LED displays. Pixel pitch is the distance from the center of one pixel cluster to the center of the next pixel cluster in a LED screen. This can range from .7 mm- 18 mm plus depending on the viewing distance.
A Direct View LED display is made up of different panels. These panels can be grouped into various shapes providing flexibility and scalability. Unlike LCD displays, Direct View LED video walls don’t have bezel lines between each panel. Various Direct View LEDs feature bezel-less panels which are placed together like building blocks. This LED technology creates a seamless viewing experience even for large-scale video walls.
Direct View LEDs can be curved, convex or concave. They can even wrap entirely around a pillar, the full 360 degrees. Since they’re panels, they can be configured in almost limit-less sizes and aren’t confined to the 16x9 aspect ratio.
Sizes:LCD Displays come in sizes provided by the manufacturer and aren’t that easy to customize. Some manufacturers have stretch sizes, but most of the options are at a 16x9 aspect ratio.
Resolution: LCD Displays typically have a higher resolution than LED screens. So, a customer can view the screen at a closer distance without seeing the pixels.
Bezels:If you’re looking for a video wall option, LCD displays do have bezels around each display. Conversely, some Direct View LEDs don’t have any visible bezels, so there will be no line breaks in your content.
Brightness:Direct View LEDs can range from 800–8,500 nits, which exceeds the brightness of most LCDs. Brightness may or may not be an issue, depending on if the display will be indoors or outdoors.
These basic features outline the difference between commercial LED vs. LCD displays. Which is better? It’s a question that can’t be answered without context. The specifics around your project and what you’re trying to achieve will define which technology should be used. Work with an integrator that understands both technologies and can make a recommendation based upon your project. There’s no one-size-fits all solution, but developing a better understanding of commercial LED vs. LCD displays will help you formulate the right questions to ask an integration partner.
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LED-vs-LCD? Lately, choosing a TV has become like walking into a candy store. There are so many TV technology options to choose from, and each of them seems just as good.
Then there are the technical terms to deal with, such as LED TV, LCD TV, QLED TV, UHD TV, OLED TV, and more. You might feel like you need to be a tech pro just to watch your favourite TV show in the evening or enjoy a game with your friend.
Here at Dynamo LED, we offer both LED and LCD TVs, and we appreciate the benefits of both TVs. Be sure to check out our buying an LED Display guide for more info.
First, an important thing to understand is that the LED (Light Emitting Diode) monitor is an improvised version of the LCD (Liquid Crystal Display). This is why all LED monitor is LCD in nature, but not all LCDs are LED monitors.
LCD technology revolutionized monitors by using cold cathode fluorescent lamps for backlighting to create the picture displayed on the screen. A cold cathode fluorescent lamp (CCFL) is a tiny fluorescent bulb. In the context of this article, LCDs refer to this traditional type of CCFL LCD TVs.
LED monitors took the old technology a step further by replacing the fluorescent bulbs with LED backlight technology. And OLED (organic light-emitting diode) technology improves it even further by eliminating the need for backlighting.
This turns a single monitor into a modular assortment of countless light-emitting diodes. Additionally, this expands how big the monitor can be without blowing up the cost exponentially.
The quality of direct-view LED screens is measured by pixel pitch. The pixel pitch is the distance between two adjacent LEDs on the display. The smaller the pixel pitch, the better the quality of the image.
Since LEDs replace fluorescent bulbs with light-emitting diodes, LED TVs are more energy-efficient than LCDs. A 32-inch LED TV screen consumes 10 watts less power than the same size LCD screen. The difference in power consumption increases as the size of the display increases.
Light-emitting diodes are considerably smaller than fluorescent lamps used in LCD monitors. Fluorescent lamps have a considerable thickness, but the thickness of diodes is next to none. Moreover, countless diodes are assembled in the same plane, so the thickness of the array isn’t increased no matter how many diodes are present.
Edge-lit LEDs have a slight drawback in viewing angle compared to LCDs, because of the position of the light source. However, direct-view LEDs offer a better angle for viewing than LCDs as the light source is evenly spread on the screen.
This is the time it takes to shift from one colour to another. Response times are generally measured in milliseconds (ms). The shorter the time to respond, the better the quality of the images produced.
Since LED displays use full-array LED backlighting rather than one big backlight, LED TVs offer significantly better contrast than LCDs. LCD backlighting technology only shows white and black, but LED backlighting can emit the entire RGB spectrum, thereby providing a deeper RGB contrast.
If you wonder which display will last longer, this debate is also won by LED displays. LED televisions have a longer lifespan of 100,000 hours on average, compared to 50,000 hours provided by LCD televisions.
An LED display provides the option to dim the backlight, along with other eye comfort features. Not only that, it provides a wider viewing angle without harming image quality. Therefore, an LED display is far better for your eyes than an LCD.
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