Advantages and disadvantages of LCD and OLED screens

1. LCD screen

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Advantages: thin body and space saving. Compared with the more bulky CRT display, the liquid crystal display only needs one third of the space of the former; it saves electricity and does not produce high temperature. It is a low power consumption product, which can be achieved compared to CRT displays. No heat at all; no radiation, which is good for health, and the liquid crystal display is completely free of radiation.

The screen is soft and does not hurt the eyes. Unlike CRT technology, the LCD screen will not flicker, which can reduce the damage of the display to the eyes and make the eyes less fatigued.

Disadvantages: The visual deflection angle is small; it is easy to cause an image tailing phenomenon (such as the rapid shaking of the mouse pointer). This is because the ordinary LCD screen is mostly 60Hz (60 frames per second), but this problem mainly occurs when the LCD is just popular The brightness and contrast of the LCD monitor is not very good.

LCD "dead pixels" problem; life is limited; when the resolution is lower than the default resolution of the monitor, the picture will be blurred; when the resolution is greater than the default resolution of the monitor (mandatory setting by the software is required), the color of the details Will be lost.

2. OLED screen

Advantages: OLED is a self-luminous material, no backlight is required, at the same time, wide viewing angle, uniform picture quality, fast response speed, easier colorization, light emission can be achieved with a simple driving circuit, simple manufacturing process, and flexible The panel conforms to the principle of lightness, thinness, and shortness, and its application range belongs to small and medium size panels.

Active light emission, wide viewing angle range; fast response speed, stable image; high brightness, rich colors, and high resolution. Low driving voltage, low energy consumption, and can be matched with solar cells, integrated circuits, etc.

Disadvantages: It is difficult to increase the size. In order to maintain the brightness of the entire panel, it is necessary to increase the brightness of each Pixel and increase the operating current, which will reduce the life of the OLED device. Current Drive control is not easy. The manufacturing process is more complicated and the variability of TFT is higher.

Although not as versatile as CRTs, LCDs are being seen as the preferred display for an increasing number of applications. They can produce very bright and sharp images but can also be harder to properly set up than CRTs. This article outlines their major pros and cons arranged in order of importance. For a more detailed discussion see What Makes a Great LCD and Testing and Evaluating LCDs.

Note: most of the discussion here regarding LCDs also applies to DLP, Plasma and LCoS displays.

1. Sharpness
Image is perfectly sharp at the native resolution of the panel. LCDs using an analog input require careful adjustment of pixel tracking/phase (see Interference, below).

2. Geometric Distortion
Zero geometric distortion at the native resolution of the panel. Minor distortion for other resolutions because the images must be rescaled.

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3. Brightness
High peak intensity produces very bright images. Best for brightly lit environments.

4. Screen Shape
Screens are perfectly flat.

5. Physical
Thin, with a small footprint. Consume little electricity and produce little heat.

1. Resolution
Each panel has a fixed pixel resolution format determined at the time of manufacture that can not be changed. All other image resolutions require rescaling, which generally results in significant image degradation, particularly for fine text and graphics. For most applications should only be used at the native resolution of the panel. If you need fine text and graphics at more than one resolution do not get an LCD display.

2. Interference
LCDs using an analog input require careful adjustment of pixel tracking/phase in order to reduce or eliminate digital noise in the image. Automatic pixel tracking/phase controls seldom produce the optimum setting. Timing drift and jitter may require frequent readjustments during the day. For some displays and video boards you may not be able to entirely eliminate the digital noise.

3. Viewing Angle
Limited viewing angle. Brightness, contrast, gamma and color mixtures vary with the viewing angle. Can lead to contrast and color reversal at large angles. Need to be viewed as close to straight ahead as possible.

4. Black-Level, Contrast and Color Saturation
LCDs have difficulty producing black and very dark grays. As a result they generally have lower contrast than CRTs and the color saturation for low intensity colors is also reduced. Not suitable for use in dimly lit and dark environments.

5. White Saturation
The bright-end of the LCD intensity scale is easily overloaded, which leads to saturation and compression. When this happens the maximum brightness occurs before reaching the peak of the gray-scale or the brightness increases slowly near the maximum. Requires careful adjustment of the Contrast control.

6. Color and Gray-Scale Accuracy
The internal Gamma and gray-scale of an LCD is very irregular. Special circuitry attempts to fix it, often with only limited success. LCDs typically produce fewer than 256 discrete intensity levels. For some LCDs portions of the gray-scale may be dithered. Images are pleasing but not accurate because of problems with black-level, gray-scale and Gamma, which affects the accuracy of the gray-scale and color mixtures. Generally not suitable for professional image color balancing.

7. Bad Pixels and Screen Uniformity
LCDs can have many weak or stuck pixels, which are permanently on or off. Some pixels may be improperly connected to adjoining pixels, rows or columns. Also, the panel may not be uniformly illuminated by the backlight resulting in uneven intensity and shading over the screen.

8. Motion Artifacts
Slow response times and scan rate conversion result in severe motion artifacts and image degradation for moving or rapidly changing images.

9. Aspect Ratio
LCDs have a fixed resolution and aspect ratio. For panels with a resolution of 1280x1024 the aspect ratio is 5:4=1.25, which is noticeably smaller than the 4:3=1.33 aspect ratio for almost all other standard display modes. For some applications may require switching to a letterboxed 1280x960, which has a 4:3 aspect ratio.

10. Cost
Considerably more expensive than comparable CRTs.

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