comparison of crt and lcd monitors brands

Resolution on a CRT is flexible and a newer model will provide you with viewing resolutions of up to 1600 by 1200 and higher, whereas on an LCD the resolution is fixed within each monitor (called a native resolution). The resolution on an LCD can be changed, but if you’re running it at a resolution other than its native resolution you will notice a drop in performance or quality.

Both types of monitors (newer models) provide bright and vibrant color display. However, LCDs cannot display the maximum color range that a CRT can. In terms of image sharpness, when an LCD is running at its native resolution the picture quality is perfectly sharp. On a CRT the sharpness of the picture can be blemished by soft edges or a flawed focus.

A CRT monitor can be viewed from almost any angle, but with an LCD this is often a problem. When you use an LCD, your view changes as you move different angles and distances away from the monitor. At some odd angles, you may notice the picture fade, and possibly look as if it will disappear from view.

Some users of a CRT may notice a bit of an annoying flicker, which is an inherent trait based on a CRTs physical components. Today’s graphics cards, however, can provide a high refresh rate signal to the CRT to get rid of this otherwise annoying problem. LCDs are flicker-free and as such the refresh rate isn’t an important issue with LCDs.

Dot pitch refers to the space between the pixels that make up the images on your screen, and is measured in millimeters. The less space between pixels, the better the image quality. On either type of monitor, smaller dot pitch is better and you’re going to want to look at something in the 0.26 mm dot pitch or smaller range.

Most people today tend to look at a 17-inch CRT or bigger monitor. When you purchase a 17-inch CRT monitor, you usually get 16.1 inches or a bit more of actual viewing area, depending on the brand and manufacturer of a specific CRT. The difference between the “monitor size” and the “view area” is due to the large bulky frame of a CRT. If you purchase a 17″ LCD monitor, you actually get a full 17″ viewable area, or very close to a 17″.

There is no denying that an LCD wins in terms of its physical size and the space it needs. CRT monitors are big, bulky and heavy. They are not a good choice if you’re working with limited desk space, or need to move the monitor around (for some odd reason) between computers. An LCD on the other hand is small, compact and lightweight. LCDs are thin, take up far less space and are easy to move around. An average 17-inch CRT monitor could be upwards of 40 pounds, while a 17&-inch LCD would weigh in at around 15 pounds.

As an individual one-time purchase an LCD monitor is going to be more expensive. Throughout a lifetime, however, LCDs are cheaper as they are known to have a longer lifespan and also a lower power consumption. The cost of both technologies have come down over the past few years, and LCDs are reaching a point where smaller monitors are within many consumers’ price range. You will pay more for a 17″ LCD compared to a 17″ CRT, but since the CRT’s actual viewing size is smaller, it does bring the question of price back into proportion. Today, fewer CRT monitors are manufactured as the price on LCDs lowers and they become mainstream.

Since the production of cathode ray tubes has essentially halted due to the cost and environmental concerns, CRT-based monitors are considered an outdated technology. All laptops and most desktop computer systems sold today come with LCD monitors. However, there are a few reasons why you might still prefer CRT over LCD displays.

While CRT monitors provide better color clarity and depth, the fact that manufacturers rarely make them anymore makes CRTs an unwise choice. LCD monitors are the current standard with several options. LCD monitors are smaller in size and easier to handle. Plus, you can buy LCD monitors in a variety of sizes, so customizing your desktop without all the clutter is easy.

The primary advantage that CRT monitors hold over LCDs is color rendering. The contrast ratios and depths of colors displayed on CRT monitors are better than what an LCD can render. For this reason, some graphic designers use expensive and large CRT monitors for their work. On the downside, the color quality degrades over time as the phosphors in the tube break down.

Another advantage that CRT monitors hold over LCD screens is the ability to easily scale to various resolutions. By adjusting the electron beam in the tube, the screen can be adjusted downward to lower resolutions while keeping the picture clarity intact. This capability is known as multisync.

The biggest disadvantage of CRT monitors is the size and weight of the tubes. An equivalently sized LCD monitor can be 80% smaller in total mass. The larger the screen, the bigger the size difference. CRT monitors also consume more energy and generate more heat than LCD monitors.

For the most vibrant and rich colors, CRTs are hard to beat if you have the desk space and don"t mind the excessive weight. However, with CRTs becoming a thing of the past, you may have to revisit the LCD monitor.

The biggest advantage of LCD monitors is the size and weight. LCD screens also tend to produce less eye fatigue. The constant light barrage and scan lines of a CRT tube can cause strain on heavy computer users. The lower intensity of the LCD monitors coupled with the constant screen display of pixels being on or off is easier on the eyes. That said, some people have issues with the fluorescent backlights used in some LCD displays.

The most notable disadvantage to LCD screens is the fixed resolution. An LCD screen can only display the number of pixels in its matrix. Therefore, it can display a lower resolution in one of two ways: using only a fraction of the total pixels on the display, or through extrapolation. Extrapolation blends multiple pixels together to simulate a single smaller pixel, which often leads to a blurry or fuzzy picture.

For those who are on a computer for hours, an LCD can be an enemy. With the tendency to cause eye fatigue, computer users must be aware of how long they stare at an LCD monitor. While LCD technology is continually improving, using techniques to limit the amount of time you look at a screen alleviates some of that fatigue.

Significant improvements have been made to LCD monitors over the years. Still, CRT monitors provide greater color clarity, faster response times, and wider flexibility for video playback in various resolutions. Nonetheless, LCDs will remain the standard since these monitors are easier to manufacture and transport. Most users find LCD displays to be perfectly suitable, so CRT monitors are only necessary for those interested in digital art and graphic design.

A German scientist called Karl Ferdinand Braun invented the earliest version of the CRT in 1897. However, his invention was not isolated, as it was among countless other inventions that took place between the mid-1800s and the late 1900s.

CRT technology isn’t just for displays; it can also be utilized for storage. These storage tubes can hold onto a picture for as long as the tube is receiving electricity.

Like the CRT, the invention of the modern LCD was not a one-man show. It began in 1888 when the Austrian botanist and chemist Friedrich Richard Kornelius Reinitzer discovered liquid crystals.

CRT stands for cathode-ray tube, a TV or PC monitor that produces images using an electron gun. These were the first displays available, but they are now outdated and replaced by smaller, more compact, and energy-efficient LCD display monitors.

In contrast, a Liquid crystal display, or an LCD monitor, uses liquid crystals to produce sharp, flicker-free images. These are now the standard monitors that are giving the traditional CRTs a run for their money.

Although the production of CRT monitors has slowed down, due to environmental concerns and the physical preferences of consumers, they still have several advantages over the new-age LCD monitors. Below, we shed some light on the differences between CRT and LCD displays.

CRTLCDWhat it isAmong the earliest electronic displays that used a cathode ray tubeA flat-panel display that uses the light-modulating properties of liquid crystals

FlickeringFlickering is recognizable by the naked eye because of the monitor’s low refresh rateFlickering is almost negligible thanks to its high refresh rate

CRTs boast a great scaling advantage because they don’t have a fixed resolution, like LCDs. This means that CRTs are capable of handling multiple combinations of resolutions and refresh rates between the display and the computer.

In turn, the monitor is able to bypass any limitations brought about by the incompatibility between a CRT display and a computer. What’s more, CRT monitors can adjust the electron beam to reduce resolution without affecting the picture quality.

On the other hand, LCD monitors have a fixed resolution, meaning they have to make some adjustments to any images sent to them that are not in their native resolution. The adjustments include centering the image on the screen and scaling the image down to the native resolution.

CRT monitors project images by picking up incoming signals and splitting them into audio and video components. More specifically, the video signals are taken through the electron gun and into a single cathode ray tube, through a mesh, to illuminate the phosphorus inside the screen and light the final image.

The images created on the phosphor-coated screen consist of alternating red, blue, and green (RGB) lights, creating countless different hues. The electron gun emits an electron beam that scans the front of the tube repetitively to create and refresh the image at least 100 times every second.

LCD screens, on the other hand, are made of two pieces of polarized glass that house a thin layer of liquid crystals. They work on the principle of blocking light. As a result, when light from a backlight shines through the liquid crystals, the light bends to respond to the electric current.

The liquid crystal molecules are then aligned to determine which color filter to illuminate, thus creating the colors and images you see on the screen. Interestingly, you can find color filters within every pixel, which is made up of three subpixels—red, blue, and green—that work together to produce millions of different colors.

Thanks to the versatility of pixels, LCD screens offer crisper images than CRT monitors. The clarity of the images is a result of the LCD screen’s ability to produce green, blue, and red lights simultaneously, whereas CRTs need to blur the pixels and produce either of the lights exclusively.

The diversity of the pixels also ensures LCD screens produce at least twice as much brightness as CRTs. The light on these screens also remains uninterrupted by sunlight or strong artificial lighting, which reduces general blurriness and eyestrain.

Over time, however, dead pixels negatively affect the LCD screen’s visual displays. Burnout causes these dead pixels, which affect the visual clarity of your screen by producing black or other colored dots in the display.

CRT monitors also have better motion resolution compared to LCDs. The latter reduces resolution significantly when content is in motion due to the slow pixel response time, making the images look blurry or streaky.

With CRTs, you don’t experience any display lag because the images are illuminated on the screen at the speed of light, thus preventing any delays. However, lag is a common problem, especially with older LCD displays.

CRTs are prone to flickeringduring alternating periods of brightness and darkness. LCDs don’t flicker as much thanks to the liquid pixels that retain their state when the screen refreshes.

CRTs have a thick and clunky design that’s quite unappealing. The monitor has a casing or cabinet made of either plastic or metal that houses the cathode ray tube. Then there’s the neck or glass funnel, coated with a conductive coating made using lead oxide.

Leaded glass is then poured on top to form the screen, which has a curvature. In addition, the screen contributes to about 65% of the total weight of a CRT.

LCDs feature low-profile designs that make them the best choice for multiple portable display devices, like smartphones and tablets. LCD displays have a lightweight construction, are portable, and can be made into much larger sizes than the largest CRTs, which couldn’t be made into anything bigger than 40–45 inches.

The invention of the cathode ray tube began with the discovery of cathode beams by Julius Plucker and Johann Heinrich Wilhelm Geissler in 1854. Interestingly, in 1855, Heinrich constructed glass tubes and a hand-crack mercury pump that contained a superior vacuum tube, the “Geissler tube.”

Later, in 1859, Plucker inserted metal plates into the Geissler tube and noticed shadows being cast on the glowing walls of the tube. He also noticed that the rays bent under the influence of a magnet.

Sir William Crookes confirmed the existence of cathode rays in 1878 by displaying them in the “Crookes tube” and showing that the rays could be deflected by magnetic fields.

Later, in 1897, Karl Ferdinand Braun, a German physicist, invented a cathode ray tube with a fluorescent screen and named it the “Braun Tube.” By developing the cathode ray tube oscilloscope, he was the first person to endorse the use of CRT as a display device.

Later, in 1907, Boris Rosing, a Russian scientist, and Vladimir Zworykin used the cathode ray tube in the receiver of a television screen to transmit geometric patterns onto the screen.

LCD displays are a much more recent discovery compared to CRTs. Interestingly, the French professor of mineralogy, Charles-Victor Mauguin, performed the first experiments with liquid crystals between plates in 1911.

George H. Heilmeier, an American engineer, made significant enough contributions towards the LCD invention to be inducted into the Hall of Fame of National Inventors. And, in 1968, he presented the liquid crystal display to the professional world, working at an optimal temperature of 80 degrees Celsius.

Many other inventors worked towards the creation of LCDs. As a result, in the 1970s, new inventions focused on ensuring that LCD displays worked at an optimal temperature. And, in the 1980s, they perfected the crystal mixtures enough to stimulate demand and a promotion boom. The first LCDs were produced in 1971 and 1972 by ILIXCO (now LXD Incorporated).

Although they may come in at a higher price point, LCD displays are more convenient in the long run. They last almost twice as long as CRTs are energy efficient, and their compact and thin size make them ideal for modern-day use.

LCDs are also more affordable compared to other display monitors available today. So, you can go for a CRT monitor for its ease of use, faster response rates, reduced flickering, and high pixel resolution. However, we don’t see why you should look back since there are so many new options that will outperform both CRTs and LCDs.

CRT monitors have surged back to relevance on a wave of nostalgia, driven by the exploding popularity of retro gaming. Unfortunately, most of the reviews, specification sheets, and comparison data that once existed has vanished from the Internet, making it difficult to know what you should look for while scanning eBay and Craigslist ads.

If you’re looking for a newer display filled with the latest and greatest goodies, our guides to the best PC monitors, best 4K monitors, and best gaming monitors can help you find the perfect fit for your needs. But this particular guide will get you up to date on aging, but still hotly desired CRT monitors.

CRT monitors fell from fashion with the same breathtaking speed as portable CD players and vinyl records. Three out of four monitors sold in 2001 were a CRT. But in 2006, Sony drew curtains on the era when it ceased production of new CRT TVs and monitors.

Still, CRTs have their perks. Most have a better contrast ratio and higher refresh rates than modern LCD monitors, so content looks richer and deeper. There’s a sub-culture of first-person shooter fans who swear FPS games always look best on a high-end CRT monitor.

A CRT is also a window into an entire era of media. Films, movies, and games produced from the dawn of television to around 2004 were created with a CRT in mind. You can enjoy older media on a modern LCD or OLED, but it will never look as originally intended. A CRT computer monitor is the most versatile, practical choice for tapping into nostalgia.

One quick note: This guide is for CRT computer monitors, not professional video monitors. PVMs are high-end CRT televisions. They’re amazing for retro console gaming but aren’t designed for use with a computer.

Sony’s Trinitron dominates the conversation just as it does in the world of retro CRT televisions and PVMs. Trinitron computer monitors are excellent, easy to find, and come from Sony, a brand people still recognize today. Other outstanding brands include Mitsubishi, Hitachi, LaCie, NEC, Iiyama, and Eizo.

Dell, Gateway, HP, and Compaq monitors are less loved, but this can be an opportunity. Large PC manufacturers didn’t make monitors in-house but rebranded monitors from others, and some use the same CRT tubes found in Trinitrons and other brands. Deciphering what’s in a rebrand can be difficult, though, so you may need to take a leap of faith.

I don’t recommend fretting brands and models if this is your first CRT. Trying to find a specific monitor is frustrating and, depending on your dream monitor, can take years (or cost thousands of dollars). Still, keep brand in mind when negotiating price. A Gateway monitor with mystery specifications might look great, but it’s not worth top dollar.

CRTs were improved and refined over the years. The oldest CRT monitors commonly sold are pushing forty years of age. They have a low maximum resolution, a low refresh rate, and small physical display size.

Newer CRT monitors, such as those produced in the mid-90s and the 2000s, will look sharper, handle reflections better, and have less noticeable lines or gaps in the image they display. You’re also find better on-screen menus with extensive image quality options.

Luckily, CRT monitors often have a label indicating the year or even month of production. This is printed on the rear of the display or might be found on a sticker in this same location. Newer is better, and a CRT built this millennia are best.

Most CRT computer monitors have a display size between 13 and 21 inches. If you follow my advice and stick with newer monitors, though, you’ll be comparing monitors between 15 and 21 inches.

I don’t recommend going below 17 inches unless you’re trying to replicate the experience of a late-80s or early-90s computer or have very limited space. Smaller CRT monitors feel tiny by modern standards. They also tend to support lower resolutions that are only ideal for enjoying older content.

There’s such a thing as too large, too, so be cautious about massive CRTs. A 21-inch CRT monitor can weigh 50 or 60 pounds. You’re unlikely to run into a CRT computer monitor larger than 21 inches, and if you do, it can weigh nearly 100 pounds. The Sony GDM-FW900, a truly epic 24-inch 16:9 CRT, is the most well-known of these rare beasts.

19 inches is the sweet spot. This size of CRT monitor remains manageable. It’s about as tall as a 24-inch LCD (though narrower, of course) and isn’t too hard to find. With that said, 17-inch monitors are more common and less expensive, so don’t hesitate to leap on a 17-incher if you find one.

Resolution works differently on a CRT computer monitor than on a modern LCD. CRT monitors are an analog technology and don’t have a native resolution. CRT monitors were sometimes marketed with a “recommended” resolution that served as a guideline, but CRTs computer monitors support a range of input resolutions and refresh rates.

Take the Hitachi SuperScan 751 as an example. This 19-inch CRT computer monitor lists a maximum resolution of 1600 x 1200 at 85Hz but supports 1024 x 768 at 130Hz and 640 x 480 at 160Hz.

In general, the best resolution is the highest you can find. A monitor with a high maximum resolution will also support lower resolutions, and often a higher refresh rate. A resolution of 2048 x 1536 is the highest you’re likely to see. 1600 x 1200 is more common.

The importance of resolution depends on your use. I use my CRT monitor to run Windows 95/98 in a virtual machine, play late-90s PC games, and emulate console games. All of these were designed with lower resolutions in mind, so the content I’m viewing is usually at a resolution of 1024 x 768 or lower.

If you want to use a CRT monitor to play Doom: Eternal at insane refresh rates with near-perfect response times, however, you’ll prefer the highest resolution you can find. Resolution is not the final word on CRT monitor sharpness but in general a higher resolution will appear sharper.

Dot pitch is the distance between dots in a shadow mask or the distance between wires in an aperture grill. More on that in a moment. Remember that a CRT shoots electrons at the front of the display. The shadow mask or aperture grill filters the electrons so they hit phosphors at the front of the display and create a usable color image. The gaps in the shadow mask or aperture grill influences how sharp the image appears.

Dot pitch is measured in millimeters. I recommend monitors with a horizontal dot pitch around .28 millimeters or lower. A dot pitch between .24 millimeters and .21 millimeters is excellent. Lower is better, but you likely won’t find a monitor with a dot pitch below .21 millimeters in your search.

Make dot pitch a priority if you care about sharpness at resolutions beyond 1600 x 1200. A monitor with a lackluster dot pitch might support a high resolution but appear blurrier at a high resolution than a low resolution. This occurs when a CRT monitor’s dot pitch isn’t up to the task.

Dot pitch is less important if you only care to use a CRT at lower resolutions. Late-model CRT monitors will be enjoyable at 800 x 600 or 1024 x 768 no matter the dot pitch listed on their spec sheet.

A shadow mask or aperture grill is a filter a CRT computer monitor uses to make sure electrons end up where they should be. A shadow mask does the job with a metal mask of evenly spaced holes. An aperture grill uses an array of wires instead. Sony was the first to introduce aperture grill technology under the Trinitron brand name, but Sony wasn’t the only company that sold CRT monitors with an aperture grill.

In general, a monitor with an aperture grill will be superior to one with a shadow mask. The aperture grill blocks less light than a shadow mask, which translates to a brighter and more colorful picture. The aperture grill is also better suited for a flat CRT display, though flat shadow mask CRTs were produced.

That’s not to say shadow masks were trash. Hitachi and NEC put a ton of effort into shadow mask technology to rival Sony’s Trinitron and had success. A late-model Hitachi ErgoFlat or NEC ChromaClear is a great monitor. If you’re comparing two random, mid-range monitors, though, the aperture grill will probably be brighter and more attractive.

As mentioned, CRT monitors support a range of resolutions and refresh rates. The higher the resolution, the lower the refresh rate. Most late-model CRT monitors had a refresh rate of at least 75Hz at maximum resolution. Lower resolutions come with higher supported refresh rates with the best models topping out at 200Hz.

Refresh rate and resolution are linked. CRT monitors with the best refresh rates also support the highest resolutions. If you want the best refresh rate, then, you’ll need to keep an eye out for a top-tier CRT monitor, and you should expect to use it at a resolution lower than the maximum it supports.

Obsessing over a CRT’s refresh rate is often not worth the trouble. CRT monitors feel smooth not just because of refresh but also thanks to fundamental differences in how an image is produced. Nearly all late-model CRT monitors support a refresh rate of at least 75Hz at their maximum supported resolution and look exceptionally smooth.

Most CRT televisions and monitors have curved (also known as convex) glass. This was necessary to fix some problems of CRT technology. CRT makers found ways to overcome these issues by the mid-1990s and flat CRT displays hit the market. Shoppers loved them and flat-screen models dominated the final years of CRT production.

The big difference is the most obvious: Curved CRT monitors are curved, and flat CRT monitors aren’t. Your choice should come down to the “feel” you’re going for. A curved CRT will feel more accurate to a mid-90s PC or earlier, while flat screens were more common after the turn of the millennium. Those looking to use a CRT with modern software and games will prefer a flat screen as well.

The vast majority of CRT computer monitors you’ll encounter have a VGA video input. This is likely the only input on the monitor. It’s an analog technology that most modern computers do not support, so you’ll need an active DisplayPort or HDMI to VGA adapter. I use a StarTech adapter from Amazon.

Be careful about the adapter you purchase. Many, including the one I purchased, have a maximum resolution and refresh rate below the best CRT monitors available. It works for me because I’m mostly driving lower resolutions and my CRT monitor is a mid-range model. But I would need to upgrade if I bought a better CRT.

While VGA dominates by far, it’s not the only input you might find. A handful of late-model CRTs support a version of DVI-A or DIV-I, which can provide an analog signal. CRT monitors from the 1980s might use a different video input. Commodore 1701 and 1702 monitors, for example, can use a composite input (just as you’d find on a CRT television).

What dot pitch is best? .28 millimeters or lower is fine for general use. Look for .24mm or lower if you want to display a resolution of 1600 x 1200 or higher.

The fastest way to buy a CRT monitor is eBay or Etsy. Hundreds of CRT computer monitors are available, including many that fit the recommendations of this guide. You’ll have to spend several hundred dollars, however, and you can’t see the monitor before buying. Shipping is a gamble, too. Many fine CRTs have met their demise in the hands of Fedex.

Local listings like Craigslist, OfferUp, and Facebook Marketplace can help you find a more affordable monitor, but stock can be limited depending on your location. Rural readers may have to search for months or drive long distances. Try to test the CRT before you buy, especially if it’s not sold at a low price. Ask the seller to have it connected to a PC when you arrive.

Don’t neglect searching offline. I snagged my current CRT computer monitor for free from someone a few blocks away who decided to put old electronics on the curb. Yard sales and estate sales are great, too. They can be a grind if you don’t enjoy the search, but you’ll spend a lot less than you would online.

Put out the word, as well. Post on social media about your search and ask relatives if they have a hidden gem. CRT monitors aren’t easy to move or dispose of, so they’re often stuffed in a closet, attic, or basement. Many people will let you have a monitor to get it out of their hair.

Good luck on your search. Just remember: The best CRT monitor is the one you own. Don’t be too harsh on the CRTs you come across. Your first task is finding one that meets your needs and reliably works. After that, you can get picky. Once again, if you’re looking for a newer display filled with the latest and greatest goodies, our guides to the best PC monitors, best 4K monitors, and best gaming monitors can help you find the perfect fit for your needs.

If you are looking for a new display, you should consider the differences between CRT and LCD monitors. Choose the type of monitor that best serves your specific needs, the typical applications you use, and your budget.

Require less power - Power consumption varies greatly with different technologies. CRT displays are somewhat power-hungry, at about 100 watts for a typical 19-inch display. The average is about 45 watts for a 19-inch LCD display. LCDs also produce less heat.

Smaller and weigh less - An LCD monitor is significantly thinner and lighter than a CRT monitor, typically weighing less than half as much. In addition, you can mount an LCD on an arm or a wall, which also takes up less desktop space.

More adjustable - LCD displays are much more adjustable than CRT displays. With LCDs, you can adjust the tilt, height, swivel, and orientation from horizontal to vertical mode. As noted previously, you can also mount them on the wall or on an arm.

Less eye strain - Because LCD displays turn each pixel off individually, they do not produce a flicker like CRT displays do. In addition, LCD displays do a better job of displaying text compared with CRT displays.

Better color representation - CRT displays have historically represented colors and different gradations of color more accurately than LCD displays. However, LCD displays are gaining ground in this area, especially with higher-end models that include color-calibration technology.

More responsive - Historically, CRT monitors have had fewer problems with ghosting and blurring because they redrew the screen image faster than LCD monitors. Again, LCD manufacturers are improving on this with displays that have faster response times than they did in the past.

Multiple resolutions - If you need to change your display"s resolution for different applications, you are better off with a CRT monitor because LCD monitors don"t handle multiple resolutions as well.

So now that you know about LCD and CRT monitors, let"s talk about how you can use two monitors at once. They say, "Two heads are better than one." Maybe the same is true of monitors!

If you are shopping for a display, you may look to compare LCD vs CRT computer monitors. Some of the best computer monitors come in a wide variety of styles and design types. Keep reading to learn the difference between these two types of monitors.

CRT displays, however, are known for superior color rendering performance and for offering high refresh rates. We have a whole page dedicated to explaining what a CRT monitor is if you’re curious.

CRT monitors are bad for the environment, as they draw a whole lot of power during use. To help reduce humanity’s carbon footprint through tech products, there are opportunities for computer monitor recycling.

There are multiple distinctions to be made between LCD and CRT monitors, as well as LCD vs LED monitors, but that’s for another post. A liquid crystal display (LCD) has liquid crystals squeezed between two sheets of glass along with an electron gun that shoots an electron beam, while a CRT (cathode ray tube) monitor features a number of cathode-ray tubes. This overall difference in design leads to widely different use case scenarios, such as when you are comparing LCD vs LED monitors for gaming.

Despite being an older technology, CRT monitors are quite capable when it comes to rendering accurate colors. As a matter of fact, many creative professionals opt for expensive newly made CRT screens over LCD technology, LED screens, or even OLED displays for just this reason. Another advantage to the bright and vivid colors found with CRT displays is that they slightly reduce eye fatigue, which can be a handy bit of information if you are comparing LCD vs LED monitors for eye strain. The downside here is that CRT monitors are fragile, so this color accuracy will break down over time as the phosphor tubes degrade.

Another surprising feature of CRT monitors is their ultra-fast refresh rates. Due to the nature of the design, they offer higher refresh rates than LCD screens, as the light has a shorter route to travel.

There is no way around it. Cathode tubes are extremely large and extremely heavy, making CRT monitors an absolute beast to haul around and to place in your workspace. LCD screens, on the other hand, are light and portable, easily fitting just about anywhere.

In most cases, LCD monitors will offer a much larger field of view for viewing image and video than CRT displays, due to the nature of the design of the flat screen. Something like an LCD screen would come in handy as a gaming monitor. The larger the field of view with a CRT, the heavier and bulkier it will be.

CRT monitors are made from multiple materials that are relatively tough to source and they draw a whole lot of power during use. In other words, they are not too great for the environment.

In today’s digital world we are very have seen different types of monitors. We spend most of our time sitting in front of many types of monitors, like playing games, watching movies, and many other things.

Have you wondered which types of monitor are you using to watch TV and playing games? Well, All the 5 types of monitors I have mentioned in this article for you look at which monitor you are using. Let’s get to know.

A good display can be very effective in the user experience. The properties of display devices have also improved a lot due to the innovation in Display Technologies. There are many types of computer monitors available right now, in the case of CRT monitor and plasma maybe not.

LCD is known for‘Liquid Crystal Display’made of liquid crystals. It is the most used monitor worldwide, as it requires less space, consumes less electricity, and produces relatively less heat than an old CRT monitor.

This display was first used in laptops,and later the manufacturers also being produced for Desktop Computers range from 17 inches to 60 inches. Being these monitors need less space and are light in weight, they do not create any trouble in transporting and moving them from one place to another.

Both LCD and LED monitors have considerably more adaptability for positioning the screen in the manner in which you need it. These monitors can turn, tilt up and down, and even rotate from landscape to portrait mode.

LED’s full form is ‘Light Emitting Diode’ is the latest innovation in the market today’s market competing with LCDs and Plasma Monitors. These types of monitors are slightly curved or flat panel displays that use light-emitting diodes for backlighting on the screen instead of cold cathode fluorescent (CCFL) for back-lighting.

LED displays are more bright with 4k resolution than other displays, due to which the user can be read or seen easily in daylight time. LED monitors use less power than LCDs as well as LEDs are widely used by gamers for playing high graphics and HD games.

The advantage of LEDs is that they produce images with higher contrastand vivid colors as well as don’t make a negative impact on the environment at the time of disposing of. In addition, the LEDs are more durable as compared to LCD and CRT Monitors.

The wavelength range of lights utilized is such that to give high quality. These LEDs screen delivers flicker-free image which lessens the eye strain and fatigue, and headaches.

These kinds of monitors have a long life expectancy, use less power, and are thinner greater contrast and more vivid colors, and have a less environmental impact than LCDs.

The price rate of LED monitors can be a little expensive than TVs even after same sized, so they are not affordable for some people at which they are available in the market.

OLED stands for “Organic Light Emitting Diode“. As the name suggests, it is made of organic material (such as carbon, plastic, wood, and polymers), that is used to convert electric current into light.

This is also the latest display technology used in displays of television, computer screen, game consoles, PDAs, or even in the latest smartphones. It can be thinner or lighter with a higher contrast ratio than LCDs

Since these LEDs are capable enough to produce a lot of different colored light, can be used directly to produce the correct color and there is no need for any backlight, which saves power also requires less space. The OLED display is considered great for watching movies.

OLED Monitors are considered the best display technology ever because of their characteristics like wide viewing angles, picture quality, outstanding contrast levels, No ghosting, fast response, and perfect contrast and brightness.

Also, you should protect the monitor from water as it can damage the OLED screen. The other disadvantages of the OLED monitor right now are its short life expectancy than LCDs and LEDs and the high price rate in the market currently.

The Plasma monitor panel (PDP) is made of Plasma technology is another latest type of computer monitor technology. Display of plasma made with cells. These cells are filled with ‘electrically charged Ionized Gas‘. Such cells are called Plasma.

The basic idea behind its invention is that it illuminates the tiny colored fluorescent lights that create image pixels. Each pixel is made of three fluorescent lights like a tiny neon light-red, green, and blue lights. that produces a superior contrast ratio, along with the intensity of these lights also vary accordingly.

In addition, it has the advantage of slimness, a plasma display is flat rather than slightly curved as an LCDs has. It cuts down image distortion and glare through its perfect flat screens.

A plasma display offers a good response, superior performance, time, and a much wide viewing angle as compared to LCDs. Plasma displays come in sizes up to 60 inches that can be considered the best home theater and HD television.

The major disadvantages of plasma monitors are their limited production and screen sizes. Plasma monitors are heavier in size a well as consume more electricity, on average than LCD monitors.

Here CRT means “Cathode Ray Tube”. Its main part is the Cathode Ray tube which is called the “Generally Picture tube”. The above image is of the CRT monitor and was used a few decades ago as a desktop computer or to watching TV.

CRT monitors are much heavier in size as compared to LCD and LED monitors. Due to being heavy, they have much trouble while moving and transporting from one place to another. Also, they need more space for installation.

As they now disappeared from the market quickly in the last few decades, because display manufacturers switched their production lines from CRT 4:3 displays to LCD 16:9 widescreen displays in order to survive the transition to the digital world widescreen television of LEDs or LCDs.

This monochrome is made up of two words Mono (Single) and Chrome (Color), hence it is called Single Color Display and it displays the monitor’s output in Black & White colors.

These Gray-scale display monitors are similar to monochrome but it displays in gray shades. These types of computer monitors are mostly used in portable and hand computers such as laptops.

Color monitor displays the output with the adjustment of RGB (Red-Green-Blue) radiations. The theory of such monitors is capable of displaying graphics in high-resolution it can be 4k.

Full FormLCD is known for"Liquid Crystal Display."LED"s full form is "Light Emitting Diode."OLED stands for "Organic Light Emitting Diode".Plasma also known as PDP stands for "Plasma Display Panel".CRT stands for "Cathode Ray Tube".

Weight and SizeLCD monitors are compact in size and light in weight.LEDs are also compact in size and very light in weight.OLEDs are  large in size and heavy in weight.Plasma monitors are also large in size and little bit heavy in weight.CRT monitors are bulky in size and very heavy in weight.

There are five types of monitors CRT(Cathode Ray tube), LCD (Liquid Crystal Display), LED (Liquid Emitting Diode), OLED (Organic Light Emitting Diode), and Plasma Monitor all are used in televisions or computer desktops.

The following are the five types of monitor: 1. LCD (Liquid Crystal Display), 2. LED (Liquid Emitting Diode), 3. OLED (Organic Light Emitting Diode), 4. CRT(Cathode Ray tube), and 5. Plasma Monitor.

LED displays are more bright with 4k resolution than other displays, due to which they can be read or seen easily in daylight time. LED monitors use less power than LCDs as well as LEDs are widely used by gamers for playing high graphics and HD games.

LCDs are much better than CRT monitors because they are much heavier in size as well as consume a lot of energy compared to LCD monitors. Due to being heavy, they have much trouble while moving and transporting from one place to another. Also, they need more space for installation.

Not at all, CRT monitors being older television sets. As they now disappeared from the market in the last few decades, because display manufacturers discontinued it and switched their production from CRT 4:3 displays to LCD 16:9 widescreen displays in order to survive the transition to the digital world widescreen television of LEDs or LCDs.

In this article, you have known the 5 different types of monitors with different qualities and works. I hope you have learned a new thing today, you can also share this post on social networks. Cheers!

Responsible for performing installations and repairs (motors, starters, fuses, electrical power to machine etc.) for industrial equipment and machines in order to support the achievement of Nelson-Miller’s business goals and objectives:

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

• Provide electrical emergency/unscheduled diagnostics, repairs of production equipment during production and performs scheduled electrical maintenance repairs of production equipment during machine service.

Text and images (scans of census records) are crisper and sharper and the LCD monitor is easier on your eyes. Monitor"s size: Traditional monitors are similar to a TV because both of them have the CRT (Cathode Ray Tube). That is the reason for its bigger size. It therefore occupies more space at the desk. It is also heavy.

However, LCD monitors have thin flat screen. Therefore occupies very less space and is lighter than the CRT monitor. LCD monitors can be fixed even on wall. Display Size: Even though the display size of a CRT monitor is calculated diagonally, the actual display size is smaller. For instance a 17" CRT monitor will actually have a display size of only 16" However, the display size of 17" LCD monitor will have 17" display size. Resolution: CRT monitors can show different resolutions. The resolution can be changed as required. LCD Monitors will have Native Resolution and therefore has a fixed resolution. The best resolution will be the native resolution for that LCD monitor. Viewing Direction: A CRT screen can be viewed from all directions. And from different distance. But LCD monitors cannot be viewed from all directions. LCD monitors can only be viewed straight. Therefore its viewing direction is limited. If viewed from other directions the colors will change and sometimes the vision will be unclear if not viewed straight. But in recent years the new LCD monitors have improved on this defect. Radiation Emission: The radiation emission in CRT monitors are higher. This will not be visible normally but it will affect eyesight and may cause head ache. Long term use of these monitors may even affect the eyes adversely. LCD monitors do not have this type of Radiation emission. Therefore LCD monitors are good for the eyes. Price: CRT monitors are priced very cheap. However they consume more power. LCD monitors are priced higher, but they consume less electricity. Though the electricity consumption is not very significant for personal use, it is very cost efficient in big organizations with many computers.

Text and images (scans of census records) are crisper and sharper and the LCD monitor is easier on your eyes. Dot pitch: This is the space between dots and is measured in fractions of a millimeter, e.g., .25mm. The smaller the number the better because the dots are tighter. Many manufacturers don%u2019t even list the dot pitch anymore and you probably won%u2019t be able to tell the difference between a .22 and .27 pitch anyway. So, if you like the monitor then don%u2019t worry about the dot pitch. Passive-matrix vs. active-matrix: Do not buy a passive-matrix monitor. I seriously doubt you%u2019ll even see one for sale, but%u2026just in case. Having said that, there are some new passive-matrix technologies that are worth buying. If the monitor isn"t TFT (a type of active-matrix), look for CSTN or DSTN (the latest passive technologies). Brightness: How bright is the picture, expressed as cd/m (I have no idea what the units mean). Look for a brightness level of 200 cd/m or greater. Again, if the monitor specs don%u2019t list this value (not all do) be sure you can get your money back. If the lighting in your office (kitchen table) is subdued the brightness factor won%u2019t be as important as if you have a lot of sunlight streaming in. Don%u2019t pay extra for extra brightness unless you%u2019re worried about bright sunlight. Overall, the contrast ratio will have a bigger impact on picture quality. Monitor"s size: Traditional monitors are similar to a TV because both of them have the CRT (Cathode Ray Tube). That is the reason for its bigger size. It therefore occupies more space at the desk. It is also heavy. However, LCD monitors have thin flat screen. Therefore occupies very less space and is lighter than the CRT monitor. LCD monitors can be fixed even on wall. Display Size: Even though the display size of a CRT monitor is calculated diagonally, the actual display size is smaller. For instance a 17" CRT monitor will actually have a display size of only 16" However, the display size of 17" LCD monitor will have 17" display size. Resolution: CRT monitors can show different resolutions. The resolution can be changed as required. LCD Monitors will have Native Resolution and therefore has a fixed resolution. The best resolution will be the native resolution for that LCD monitor.

Speaking of easy on your eyes, there isn"t any glare, and the flat screen means no distortion. By the way, even those expensive old-fashioned flat screen CRT monitors have some distortion. Monitor"s size: Traditional monitors are similar to a TV because both of them have the CRT (Cathode Ray Tube). That is the reason for its bigger size. It therefore occupies more space at the desk. It is also heavy. However, LCD monitors have thin flat screen. Therefore occupies very less space and is lighter than the CRT monitor. LCD monitors can be fixed even on wall. Display Size: Even though the display size of a CRT monitor is calculated diagonally, the actual display size is smaller. For instance a 17" CRT monitor will actually have a display size of only 16" However, the display size of 17" LCD monitor will have 17" display size. Resolution: CRT monitors can show different resolutions. The resolution can be changed as required. LCD Monitors will have Native Resolution and therefore has a fixed resolution. The best resolution will be the native resolution for that LCD monitor. Viewing Direction: A CRT screen can be viewed from all directions. And from different distance. But LCD monitors cannot be viewed from all directions. LCD monitors can only be viewed straight. Therefore its viewing direction is limited. If viewed from other directions the colors will change and sometimes the vision will be

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"Between 0.0001 and 0.00001 nits" "Sony claims an OLED contrast range of 1,000,000:1. When I asked how the contrast could be so high I was told that the surface is SO black the contrast is almost infinite. If the number representing the dark end of the contrast scale is nearly zero then dividing that number into the brightest value results in a very, very high contrast ratio."

Does not normally occur at 100% brightness level. At levels below 100% flicker often occurs with frequencies between 60 and 255 Hz, since often pulse-width modulation is used to dim OLED screens.

No native resolution. Currently, the only display technology capable of multi-syncing (displaying different resolutions and refresh rates without the need for scaling).Display lag is extremely low due to its nature, which does not have the ability to store image data before output, unlike LCDs, plasma displays and OLED displays.

Let"s say you have $1,000 to burn on a desktop PC gaming monitor. You could buy a brand-new 4K display with quantum dots, high dynamic range, and a fast refresh rate, or splurge on a curved QHD monitor so wide that it stretches into your peripheral vision while playing.Alternatively, you could venture onto eBay and spend similar money on a CRT monitor from 20 years ago.The latter option might not be as ill-advised as it seems. Within PC gaming circles, some people insist that cathode ray tube monitors, despite their lower resolutions, smaller screens, and considerable bulk, are superior for games because they respond to input faster and have less motion blur than LCDs. Although this argument"s been floating around for years, it just got a new wave of attention from Eurogamer"s Digital Foundry, which recently created a video extolling the outdated display tech.Advertisement"Today"s premium-priced gaming LCDs are trying very hard to recapture CRT"s major benefits—low latency, high refresh rates and reduced input lag—but as good as many of these screens are, for our money nothing beats a good old-fashioned cathode ray tube display for desktop gaming—not even the very best LCD screens on the market," Digital Foundry editor Richard Leadbetter wrote.

Unfortunately, getting a CRT monitor that works well with modern PC games is a lot harder than buying a 4K LCD monitor on Amazon. While CRT TVs and monitors are readily available on Craigslist or your local thrift store (sometimes even for free) only a handful of models support the widescreen aspect ratios that some modern games require. The most prized CRT monitor of them all, Sony"s GDM-FW900, recently sold for $999 on eBay, and buying a compatible graphics card or video adapter could raise the final cost even further.The payoff, however, will be imperceptible input lag and no motion blur, along with a feeling, perhaps, that you"ve kept another aging monitor out of an e-waste graveyard. PC gamers have arguably spent more for less before.

The case for CRT gamingOn a CRT monitor, the screen is coated in millions of phosphor dots, with one red, green, and blue dot for every individual pixel. To light up each pixel, an electron beam scans across the screen, focusing electrons on individual phosphor dots and causing them to emit photons. Applying more voltage to the system generates more electrons, in turn causing each dot to emit more light.That"s a lot to wrap your head around, but the thing to keep in mind is that the electron-to-photon exchange happens instantly. While CRTs do have some sources of lag⁠—namely, the time spent buffering each video frame and scanning each line of the frame from top to bottom on the screen⁠—those delays are on the order of microseconds. When you move your mouse or press a button on the keyboard, the response time is imperceptible.Advertisement"It"s the chemistry of the phosphors," said Barry Young, a longtime CRT display analyst who is now the CEO of the OLED Association. "You hit it with an electron, and it creates a photon immediately."By contrast, an LCD requires physical movement on the part of every pixel. On an LCD, the back of the display emits a constant stream of white light, which passes through a polarizer and onto an array of liquid crystals. Applying voltage to each crystal causes them to twist, altering the amount of light that comes through the screen"s front polarizer.Compared to electron-photon conversion, the physical movement of liquid crystals inside an LCD display takes a lot more time, introducing input lag. It also creates blurriness when there"s a lot of motion happening across the screen.Raymond Soneira, the president of display research firm DisplayMate, has found that this issue even persists on panels with faster refresh rates than the usual 60 Hz. This may explain why Digital Foundry"s John Linneman described the CRT experience as "cleaner, smoother, [and] nicer" compared to even the best LCDs."The issue here is that you"re comparing an electronic conversion—that is, from an electron to a photon—with physically twisting the liquid crystal," Young said. "The faster something moves across the panel, the less capable an LCD is with keeping up with the movement."In fairness, LCD panel makers have done a lot to close the gap with CRTs. Young points out that liquid crystals twist faster than they used to, and LCD panels can further reduce latency and motion blur by buffering an additional frame in their timing controllers or inserting artificial frames.AdvertisementAs the CEO of the OLED Association, he also argues that OLED displays provide the same responsiveness as CRT monitors because they also involve electron-to-photon conversion, only with organic chemicals (the "O" in OLED is for organic) receiving the voltage instead of phosphor dots."There"s really no difference between OLEDs and CRTs," Young said.Still, large-screen OLED panel makers to date have focused nearly all their energy on televisions, so the only OLED monitor on the market today is a 22-inch panel from Asus that costs $4,000. Young said the manufacturer of those panels, JOLED, is building a larger factory next year, bringing down costs, It may be a while until OLED monitors can compete with even the best LCDs on price.

Hunting for the CRT holy grailIf you"re convinced that a CRT monitor is the way to go, you"ll still have a lot of competition in finding a great one.Adam Taylor, who creates educational tech videos under the name EposVox on YouTube, has spent years trying to find a Sony GDM-FW900 in decent condition. He"s set up multi-keyword searches on sites like eBay, Craigslist, and Facebook Marketplace, and regularly puts out feeler posts in his area to see if anyone might have any leads. For a monitor that doesn"t need any repairs and doesn"t have any major cosmetic issues, Taylor said in an interview that he"s willing to pay up to $500.The FW900"s big selling point, Taylor said, is its 16:10 aspect ratio, which is much wider than the 4:3 aspect ratio of most CRT monitors. Although a 16:9 aspect ratio is more common among LCD monitors today, most games still support 16:10, which would fill the entire screen on a FW900. The monitor also has a maximum resolution of 2304x1440 at a refresh rate of 80 Hz—pretty good even by modern standards—and it can hit a super-smooth refresh rate of 160 Hz when the resolution is cut in half.Advertisement"It can do ridiculous things while still supporting a modern workflow, because it"s 16:10," Taylor said.Beyond the FW900, Taylor said the same monitor has sold under different makes and models, including the HP A7217A, SGI GDM-FW9011, and Sun GDM-FW9010, but those are no easier to come by. A couple 16:9 CRT monitors also exist, including the Intergraph InterView 28HD96 (famously used by John Carmack to code Quake) and 24HD96, but they"re even rarer.Even if you can find one, you"ll need a graphics card with an analog output, such as Nvidia"s 900 series and AMD"s 300 series cards, or a digital-to-analog converter. You"ll also have to go in knowing the monitor may not last. As the phosphor inside a CRT ages, it will naturally lose its luminance, and that"s assuming it doesn"t suffer any other issues along the way. Repairing a CRT can be tedious and dangerous, Taylor says, and repair shops are practically nonexistent."It"s one of those things, you don"t get to keep it forever," Taylor said. "You know that getting into it, because it"s very old technology that is very prone to problems and needing maintenance."Still, Taylor is he"s glad to see CRT monitors getting another round of attention. That"s not always the case with some of his fellow CRT enthusiasts, who fear that more media coverage will inflate prices and bring in too many newbies, Taylor said. But outside of some occasional instances of people capitalizing on the hype (like the FW900 that sold for $999 on eBay) he hasn"t seen much evidence of price gouging. Most CRT monitor sales, he said, come from people who"ve hoarded them in garages and basements and just want to get rid of them.Besides, getting CRTs into the hands of people who want to play with them is better than having them wind up in warehouses, waiting for a recycling solution that never comes."We have no way established, at least in the U.S., to get rid of these things, and so to see people use them and have fun with them in a way that keeps them from just being destroyed pieces of glass and lead in the streets is a super good place for me," Taylor says. "There"s a whole elitist, "This is better," aspect to it, but just using the screens and having fun, I think, is really important."

We often get asked, “should I replace my old CRT with a new LCD? What is the difference?” There are several factors to consider including price, resolution, energy savings and disposal. Listed below are some of the top reasons why the LCD may be a better choice.Size and Weight: The color LCD is thinner and much lighter. It is much easier to install into tight areas. The CRT can weigh up to 50 pounds and needs additional bracing and heavier supports.

Price: At first glance, the CRT wins here. It is older technology and the price is cheaper. However you give up all the features mentioned in this list. Also disposal costs and higher energy costs may negate any price savings.

Power: Energy savings on the LCD can make a big difference in companies having multiple units in production. Savings can be as much as 1/3 over the older CRT.

Summary: Based on price alone, you may choose to stay with the CRT. However, you must consider the energy cost savings to operate an LCD vs. CRT, plus the added cost of disposal for CRTs. In many instances, the CRT may actually cost more in the long run. With its large, high resolution screen and compact housing for easy installation, the LCD offers many advantages over the older CRT technology.

CRTs can be abundant if you have good places in your local community to look, but they are getting trickier to track down each passing year. And while nothing’s stopping you from using a modern LCD for retro gaming, you may want to track down a square-shaped LCD (mostly 4:3 aspect ratio) so your classic content seems a bit more “at home” — avoiding those black bars.

So whether you’re looking for a cheap 4:3 LCD to use with your MiSTER FPGA setup, have a classic personal computer, or just want something for watching “full screen” video content or a emulation box to run on, I’m hoping this guide is helpful in your shopping.

Granted LCDs, especially older models, aren’t ideal for retro gaming compared to CRTs. LCDs often down’t have as deep of black colors and there is input lag involved among some other issues.

However, LCDs are easier to move around and store and use less electricity. And even though there are many die-hard CRT fans out there, there are also many long-time retro fans that have been using the recommended monitors below for a while and been happy with their performance. I’ve even quoted and handful of enthusiasts to give you a good perspective on these recommendations. And don’t forget, eventually LCDs might be much easier to find and purchase remotely then the CRTs counterparts.

Early LCD monitors may show a lack of technical maturity, however, near some of the later ones that we are focusing on have some decent IPS technology with reasonable color and response times.

Availability and practicality are the main reason for me rounding up this guide. I know many retro gamers will focus on hunting down and maintaining CRTs, but as time goes on, this is becoming much less practical for the average person.

In the end, I thought this would be a fun, lighthearted look at some options for those that are interested. If you have any commentary on the matter, please share your thoughts and suggestions in the comments section below. Just be respectful — not looking for CRT vs LCD wars