Flat Panel Display in Computer Graphics
Flat Panel Display in Computer
A flat panel display is a type of electronic visual display that uses millions of liquid crystals to produce a clear image. These displays are often used for communication on laptops and to view and profile information on a computer. Computer monitors are also useful for displaying numbers and profiles and are cited in many device applications. However, there are a few limitations to this technology. Read on to discover the benefits and limitations of a flat panel display.
The development of the flat panel display began around the year 1995, when the first LCDs began to replace cathode ray tubes. As display technology improved, the manufacturing of semiconductors became common. In 1995, the Active Matrix Liquid Crystal Display (AM-LCD) appeared on the market. This technology has advanced dramatically over the past two decades and is now widely used in computers, televisions, and other consumer products. In addition to information on LED displays, the book also includes chapters on quantum-dot-enhanced LCDs and organic light-emitting diodes.
The benefits of flat panels over traditional monitors are numerous. Most flat panel display feature a higher resolution than conventional monitors, which can make for sharper images. Flat panel monitors have a minimum resolution of 1,080 lines, although higher resolutions are more common among business users and graphics designers. The resulting high resolution allows the user to manipulate the screen size and resolution by simply dragging. They can also be configured to use a variety of different technologies, including 3D printing and high-definition video.
Flat Panel Display in Computer Graphics
Compared to the cathode-ray tube, the flat panel display is thin and lightweight. Its improved linearity and thinner size make it ideal for portable devices. These displays are ideal for viewing movies and other visual content, as they are less than 10 centimeters thick. The resolution of a flat panel display is much higher than that of a consumer-grade CRT television. In addition, most flat panel displays can support 1080p or even 4K resolution.
The difference between a static and volatile flat panel display is how much energy the display requires. Static flat panel displays rely on the use of bistable materials, which require less energy to change their image. However, they are limited in their use and refresh rates. Some companies, such as Magink, produce electrophoretic liquid-crystal displays. These displays are used in e-book reader devices and anlabels. Another type is called an interferometric modulator display, which is used in a smartwatch.
Other flat panel displays use light-emitting diode (LED) technology. Though technically LCD, LED displays use LED backlighting and still use liquid pixels between two layers of polarizing glass. Other LCD displays use another type of light-emitting diode (OLED), which is similar to an LCD but produces its own illumination. The newest flat panel displays also support touch screen technology, which allows natural interaction with the display.