The LCD monitor is a display device integrating advanced electronic technology, liquid crystal display technology, embedded hardware processing technology, 3D signal processing technology, and mechanical manufacturing technology. These kinds of technologies can be organically and reasonably combined to be suitable for different applications. The LCD products used in applications have fully demonstrated a strong competitive advantage in the fierce market competition.
With the continuous increase in market demand, users have raised higher and higher requirements for LCD monitors, and the technical factors that affect LCD quality include display effect, contrast, color reproduction degree, stitching seam width, viewing angle, brightness, etc. And so on, all these technical factors need the constant development and solution by the manufacturers.
Whether the stitching seam is an ultra-narrow frame design will directly affect whether the user adopts the LCD mosaic wall display solution. The LCD uses a backlight as a light source, and its edge is generally wider. For example, the border width of a 46-inch ordinary LCD screen exceeds 30 mm. If it is used for splicing, the splicing gap is at least 60 mm, which will seriously affect the visual effect. Unacceptable to users. If you use the unique narrow edge design of the DID LCD screen, the smallest splicing gap is only about 7mm, which perfectly presents the displayed image.
The CCFL backlight monitor of the traditional LCD screen covers only 65% ​​to 75% of the standard color gamut, and the color range is relatively small, making it difficult to realistically restore true video scenes. Therefore, the conventional LCD monitor has certain defects in color reproduction. Similarly, to overcome the problems of display effect, color reproduction, viewing angle, brightness decline, etc., is still an urgent problem for monitor manufacturers.
In 2008, LED technology was brilliantly interpreted by the world. The “Olympic Five Rings†and large scrolls rising in the sky during the opening ceremony of the Beijing Olympics were all LED masterpieces. It was like an unprecedented LED super light show. It is also in this year, LED backlight technology was applied to liquid crystal display and mass production, and then set off a wave of new trends in the liquid crystal display field, it is also the development of LED backlight control technology. The development goal of the LED backlight control function is increasingly clear, that is, to overcome or improve the inherent problems of the liquid crystal display, such as the problem of light leakage in the dark grayscale, the phenomenon of smearing in the liquid crystal display, and the improvement of the image quality, color gamut and brightness, and energy conservation and environmental protection. In various LED backlight control algorithms, the partition dynamic control algorithm can well solve the two major shortcomings of the above liquid crystal display, and is also the best product that can solve the above problems.
With the continuous increase in market demand, users have raised higher and higher requirements for LCD monitors, and the technical factors that affect LCD quality include display effect, contrast, color reproduction degree, stitching seam width, viewing angle, brightness, etc. And so on, all these technical factors need the constant development and solution by the manufacturers.
Whether the stitching seam is an ultra-narrow frame design will directly affect whether the user adopts the LCD mosaic wall display solution. The LCD uses a backlight as a light source, and its edge is generally wider. For example, the border width of a 46-inch ordinary LCD screen exceeds 30 mm. If it is used for splicing, the splicing gap is at least 60 mm, which will seriously affect the visual effect. Unacceptable to users. If you use the unique narrow edge design of the DID LCD screen, the smallest splicing gap is only about 7mm, which perfectly presents the displayed image.
The CCFL backlight monitor of the traditional LCD screen covers only 65% ​​to 75% of the standard color gamut, and the color range is relatively small, making it difficult to realistically restore true video scenes. Therefore, the conventional LCD monitor has certain defects in color reproduction. Similarly, to overcome the problems of display effect, color reproduction, viewing angle, brightness decline, etc., is still an urgent problem for monitor manufacturers.
In 2008, LED technology was brilliantly interpreted by the world. The “Olympic Five Rings†and large scrolls rising in the sky during the opening ceremony of the Beijing Olympics were all LED masterpieces. It was like an unprecedented LED super light show. It is also in this year, LED backlight technology was applied to liquid crystal display and mass production, and then set off a wave of new trends in the liquid crystal display field, it is also the development of LED backlight control technology. The development goal of the LED backlight control function is increasingly clear, that is, to overcome or improve the inherent problems of the liquid crystal display, such as the problem of light leakage in the dark grayscale, the phenomenon of smearing in the liquid crystal display, and the improvement of the image quality, color gamut and brightness, and energy conservation and environmental protection. In various LED backlight control algorithms, the partition dynamic control algorithm can well solve the two major shortcomings of the above liquid crystal display, and is also the best product that can solve the above problems.
Wall washing lamp, as the name implies, lets the light wash the wall like water to outline the outline of large buildings.
LED is widely used because of its energy-saving, high luminous efficiency, rich colors, long life and other characteristics.
Wash Wall Light,Wash Wall Lamp,Wash Wall,Wall Washing Lamp
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