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TFT screens use liquid crystals as optical materials, controlling the passage of light by adjusting the arrangement of liquid crystals through an electric field, thus achieving image display.

Each pixel is equipped with a thin-film transistor (TFT) to control the on/off state of the liquid crystal, thereby precisely controlling the brightness and color of each pixel.

Most TFT screens have one or more backlight sources on the back, providing illumination for the liquid crystal layer. These backlight sources can be LED (Light Emitting Diode) or fluorescent lamps.

TFT screens can display rich and true-to-life colors because each pixel can be precisely controlled. This makes them excel in displaying images, videos, and games.

TFT screens have fast response times, suitable for displaying dynamic images and videos, without ghosting or trailing effects.

TFT screens support high-resolution displays, providing clear and detailed images, allowing users to enjoy clearer content.

TFT screens offer a wide viewing angle, so even when viewed from the side or at an oblique angle, the image will not suffer from color distortion or brightness reduction.

Compared to some more advanced display technologies (such as OLED), TFT screens have lower manufacturing costs, making them more competitive in large-scale applications.

TFT screens occupy an important position in modern consumer electronics due to their excellent color reproduction, fast response time, high resolution, and cost-effectiveness. TFT screens are a reliable, mature, and cost-effective choice that can meet the needs of most users.

AMOLED screens utilize organic materials as the emitting layer. When stimulated by an electric current, these materials emit light. Therefore, each pixel emits light independently without the need for a backlight source.

Each pixel is equipped with an individual Thin Film Transistor (TFT) as a driver, controlling the brightness and color of the pixel. This active matrix design allows AMOLED screens to precisely control each pixel.

AMOLED screens achieve high contrast by completely turning off black pixels and making bright pixels very luminous. This results in vivid images with rich colors and deep blacks.

AMOLED screens have very fast response times, suitable for displaying dynamic content such as videos and games. This is because the pixels can quickly switch brightness and color.

When displaying black or near-black content, AMOLED screens can turn off black pixels, significantly reducing power consumption. This makes AMOLED screens more energy-efficient, especially when displaying dark backgrounds.

AMOLED screens can be manufactured in flexible or curved forms, enabling innovative designs such as smartwatches with flexible displays or smartphones with curved screens.

AMOLED screens offer a wide viewing angle, maintaining consistent color and brightness even when viewed from the side or at oblique angles.

Since they do not require a backlight source, AMOLED screens can be made very thin and lightweight, making devices more portable.

Due to their excellent color reproduction, high contrast, and energy efficiency, AMOLED screens are widely used in various consumer electronics, including:
Smartphones: Many high-end smartphones use AMOLED screens to provide superior display quality and longer battery life.
Smartwatches: Some smartwatches also use AMOLED screens to provide clearer displays and lower power consumption.
Tablets: Some high-end tablets also incorporate AMOLED screens to offer superior visual experiences.