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When it comes to televisions and monitors, most people will have heard of these terms: LCD, LED, and plasma. That said, not many people really understand how these technologies work and how they affect your viewing experience. Even better, most people don't realize that choosing the right backlight technology can give competing players a slight edge over the competition, not to mention deeper colors.

With this in mind, the following guide will provide a comprehensive introduction to LED and LCD displays - determine which one best suits the needs of gamers. Chapter

In that case, don't waste any more time, dive in!

Refresh rate

75Hz

Response time

1ms

Resolution

1920 × 1080

Screen size

21.5 ”

HDMI, DisplayPort and DVI input

7444 44 44 44 ms Cheaper 44 44 44 hours 44 44 milliseconds 44 44 hours 44 hours 44 hours 444 hours 44 44 hours 444 hours Without built-in speakers

Size

27 ”

Refresh rate

144Hz

Response time

4ms

Panel type

IPS

Maximum resolution

4K UHD

Compatible with Gsync quality 44 44 44 44 44 44 44 44 44 444 44 44 444 High-quality automatic adjustment technology 444 444 44 44 44 44 44 44 44 44 44 44 44 44 444 High-quality automatic adjustment rotation adjustment

The LCD or liquid crystal display uses thousands of little squares (also called pixels) To show the light of the image we see. Each pixel is made up of several different layers, with the liquid crystal in between.

The following is a rough idea of how your LCD monitor works, including the number of layers on the panel itself:

When there is no current through the liquid crystal, they rotate and rotate 90 degrees. This allows light to flow through the liquid crystal. When this happens, the light will also bend along the same path, allowing the light to pass through the second filter.

When this happens, the light behind is visible and passes through the red, green or blue filter. Once the

is turned on, the LCD screen returns to the non-rotating position, blocking light from behind. This effectively turns off your pixels.

Multiple pixels work together as you see when you look at the LCD screen. If you look closely at the monitor (not recommended), you may see individual pixels, at least groups of pixels of different colors. Think of it as a pointillist artwork, a form of painting that uses different points to form an image. Pixels are tiny dots of color, and when they come together in large numbers, they begin to form a visible image. The

backlight is a key part of the LCD puzzle. Without it, you won't be able to see anything on the monitor.

For example, remember to use an old Gameboy, when it gets dark you have to turn on the headlights because you can no longer see the screen. Well that's because the LCD doesn't have its own light source. Fortunately, LCD monitors don't have the same problem. The

LCD monitor has a dedicated backlight layer that illuminates the remaining layers so that we can see the image through it. Although this seems to be a simple concept, the difference between LED and LCD is really very big. The

LCD panel originally used a cold cathode fluorescent lamp (CCFL) as the light source. On the other hand, LEDs only use LEDs.

When the above-mentioned CCFL method is used to backlight pixels, a long row of light tubes will be placed behind it, thereby creating a more environmentally-friendly method of pixel lighting.

This is not ideal. In fact, it is inefficient in many ways.

lamps are not only bulky, but placing them in rows behind the pixels requires much more space than LED rows. This makes the display larger and heavier than LED-backlit displays. In addition, unlike other backlight technologies, you cannot individually turn off specific areas of the backlight, which means that the backlight is likely to overflow into areas that should be dark or black.

They are not very energy efficient. In a world where everything is changing to high efficiency, you don't want the technology in your old monitor to hinder your development.

In our search for more attractive displays, we obviously need a better solution: input LEDs or light emitting diode.

You may have seen LEDs before. In the 21st century, they are everywhere from cheap children's toys to car headlights and just about everything in between.

Using LEDs to illuminate the LCD screen is a big step. The production cost of LEDs is much lower now, requires much less energy, and can be manufactured in various sizes, brightness, and colors. The lifespan of LEDs is also much longer than that of fluorescent lamps, most of which have a nominal lifespan of over 100,000 hours, while the nominal lifespan of CCFL lamps is 20,000 to 40,000 hours. . The

backlit LCD screen using LEDs allows manufacturers to better control the behavior of each pixel. This gives us a better color gamut, faster response time, and a wider range of usable contrast.

For example, you can get a variety of warm white and cool white, single color and full RGB multi-color white LEDs. A display with bright white LEDs will have a brighter overall picture. On the other hand, RGB LED backlit displays can display a wider range of colors. The

uses LEDs also opened up a new way to achieve display backlighting. The full-array backlight places the light source directly behind the pixels, allowing light to shine off the back of multiple pixels at any time.

LEDs can be made small enough to install one behind each pixel to provide each pixel with its own backlight. Illumination of the panel in this way is called full array backlighting.

Another

All about the choice of what the backlight is desired. Even with most cheap monitors these days, including ledbacklit, finding a model that uses old CCFL technology is difficult to find. Because

has a type of LCD panel that CCFL and LED does not necessarily mean that you have selected an option when selecting a monitor.

There are also many other factors that make up a good monitor, as a good update rate, response time and a contrast ratio. The LCD

HDR monitor is also common, and provides a significant impulse to the range of colors in the conventional LCD panel. Personally, use a low-inch-curved LedBacklit LCD screens to use some random LED monitors.

Please let us know what you are using now (and if it is an LED or LCD) it is used to leave a comment in the next section. Even so, you can not go to the center of our community so you can discuss all monitoring related to similar people.

: 20 Best Games Monitor 2020/21 (Budget, 144 Hz, 4K, Gsync & Freesync)

Update Rate

75Hz

Response Time

1MS

1920 × 1080

Screen Size

21.5 "

HDMI, DisplayPort and DVI Entry

Size

27 "

1444 Update Rate

144 Hz

Response Time

4MS

Panel Type

IPS

IPS Resolution

4K UHD

4K UHD

All screens, especially if you look at it too long, all screens They are bad for your eyes. Make sure you approach your face so that it can come closer to your face. This will reduce ocular tension, regardless of lighting and panel technology. As mentioned above, if we talk about two monitors of the same size, an LED is usually understood and an LD LCD to be an iFelie option. In most cases, the LED screen can be attenuated without sacrificing the quality of the image. However, there are certain circumstances where the LCD is definitely correct. It is reduced to the type of panel. For example, LED screens are generally upper, but the monitors of the IPS panel are characterized by a high precision of loyalty color and an exquisite viewing angle, and discarding the eyes.

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