研究目的
To design thin direct-lit backlights by using micro-LEDs and investigate the correlation between the design parameters and the optical performances of direct-lit backlights based on the micro-LED technology.
研究成果
Micro-LEDs are ideal for realizing thin direct-lit backlights for LCD applications. Optimal conditions include a bead density of around 104 mm?3 to maintain above 60% transmittance and a gap of 1.5 mm at a 3 mm pitch for high luminance uniformity. Additional optical films can further reduce the gap.
研究不足
The study is based on simulation, which may not fully capture all real-world variables. The transmittance significantly decreases at higher bead densities, limiting the light efficiency of the backlight.
1:Experimental Design and Method Selection:
Optical simulation was conducted using LightTools
2:0 software to investigate the luminance uniformity of a direct-lit backlight with micro-LEDs as a light source. Sample Selection and Data Sources:
The simulation modeled a backlight with micro-LEDs arranged in a hexagonal lattice, a diffuser plate with microbeads, and a reflection film.
3:List of Experimental Equipment and Materials:
Micro-LEDs (
4:1 mm x 1 mm x 12 mm), diffuser plate (polycarbonate with microbeads), reflection film (diffuse Gaussian with a 25° distribution angle). Experimental Procedures and Operational Workflow:
The Mura index was calculated to assess luminance uniformity by changing design parameters such as pitch, gap, bead density, and mirror reflectance.
5:Data Analysis Methods:
The Mura index and transmittance were analyzed as functions of the design parameters to identify optimal conditions for high luminance uniformity and light efficiency.
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