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Application of Mini-LEDs with Microlens Arrays and Quantum Dot Film as Extra-Thin, Large-Area, and High-Luminance Backlight

Yen Lung Chen, Zhi Ting Ye, Wei Lai, Chang Che Chiu, Kuo Wei Lin, Pin Han

2022Nanomaterials15 citationsDOIOpen Access PDF

Abstract

The demand for extra-thin, large-area, and high-luminance flat-panel displays continues to grow, especially for portable displays such as gaming laptops and automotive displays. In this paper, we propose a design that includes a light guide layer with a microstructure above the mini-light-emitting diode light board. The light control microstructure of concave parabel-surface microlens arrays on a light-emitting surface increases the likelihood of total internal reflection occurring and improved the uniformity merit function. We used a 17 in prototype with quantum-dot and optical films to conduct our experiments, which revealed that the thickness of the module was only 1.98 mm. When the input power was 28.34 watts, the uniformity, average luminance, and CIE 1931 color space NTSC of the prototype reached 85%, 17,574 cd/m2, and 105.37%, respectively. This module provided a flat light source that was extra thin and had high luminance and uniformity.

Topics & Concepts

BacklightLuminanceMicrolensLight-emitting diodeOpticsMaterials scienceOptoelectronicsLiquid-crystal displayPhysicsLens (geology)Advanced optical system designSemiconductor Lasers and Optical DevicesGaN-based semiconductor devices and materials
Application of Mini-LEDs with Microlens Arrays and Quantum Dot Film as Extra-Thin, Large-Area, and High-Luminance Backlight | Litcius