The display effect of full color LED displays is directly related to users and audiences. To achieve a perfect user experience, it is necessary to control and improve the quality of LED displays. So, how to control and improve the quality of LED full color display screens? What are the important indicators that reflect the quality of dedicated full-color LED displays?
LED devices are the most critical component of full color LED displays for three reasons:
Firstly, LED is the most commonly used key component in a full color screen, with thousands to tens of thousands of LEDs per square meter used;
Secondly, LED is the main body that determines the overall optical display performance of the screen, directly affecting the audience’s evaluation of the display screen;
Once again, LED accounts for the largest proportion of the overall cost of the display screen, ranging from 30% to 70%. The selection of LED determines the quality of the entire display screen by over 50%. If the LED is not selected properly, the other components of the display screen, no matter how good, cannot compensate for the quality defects of the display screen.
The important indicators reflecting the quality of dedicated LED for full color LED display screens mainly include:
Due to the fact that a full color display screen is composed of elements consisting of tens of thousands or even hundreds of thousands of sets of red, green, and blue LEDs, the failure of any color LED will affect the overall visual effect of the display screen. Generally speaking, according to industry experience, the failure rate of LED display screens should not exceed 3/10000 (referring to the failure caused by the LED device itself) from the beginning of assembly to 72 hours before shipment.
2、 Antistatic ability
LEDs are semiconductor devices that are sensitive to static electricity and are prone to electrostatic failure. Therefore, their anti-static ability is crucial for the lifespan of display screens. Generally speaking, the failure voltage of LED’s human electrostatic mode test should not be lower than 2000V.
A full color display screen is composed of countless elements composed of red, green, and blue LEDs. The consistency of brightness and wavelength of each color LED determines the brightness consistency, white balance consistency, and chromaticity consistency of the entire display screen. Generally speaking, display screen manufacturers require device suppliers to provide LEDs with a wavelength range of 5nm and a brightness range of 1:1.3. These indicators can be graded by the device supplier through a spectrophotometer. The consistency of voltage is generally not required.
LED screen brightness is an important determining factor of display screen brightness. The higher the brightness of the LED, the greater the margin of current usage, which is beneficial for saving power consumption and maintaining LED stability. LEDs have different angle values. When the chip brightness is set, the smaller the angle, the brighter the LED, but the smaller the viewing angle of the display screen. Generally, 100 degree LED should be selected to ensure sufficient viewing angle of the display screen. For displays with different point spacing and viewing distances, a balance should be found between brightness, angle, and price.
5、 Attenuation characteristic
Red, green, and blue LEDs all exhibit a characteristic of brightness decay with increasing working time. The quality of LED chips, the quality of auxiliary materials, and the level of packaging technology determine the attenuation speed of LEDs. Generally speaking, after a 1000 hour, 20 milliampere room temperature illumination test, the attenuation of red LEDs should be less than 10%, and the attenuation of blue and green LEDs should be less than 15%. The consistency of red, green, and blue attenuation has a significant impact on the white balance of full color LED displays in the future, which in turn affects the display fidelity of the display.