Compact freeform primary lens design based on extended Lambertian sources for liquid crystal display direct-backlight applications

Zhengbo Zhu; Yiming Yan; Shili Wei; Zichao Fan; Donglin Ma

doi:10.1117/1.OE.58.2.025108

23 February 2019 Compact freeform primary lens design based on extended Lambertian sources for liquid crystal display direct-backlight applications

Zhengbo Zhu, Yiming Yan, Shili Wei, Zichao Fan, Donglin Ma

Author Affiliations +

Optical Engineering, Vol. 58, Issue 2, 025108 (February 2019). https://doi.org/10.1117/1.OE.58.2.025108

Abstract

A concept for a freeform primary lens system (FPLS) is proposed for designing freeform optics in the direct-backlight system of liquid crystal displays. This FPLS has a super small ratio of height of the optics system h to LED source with diameter D by avoiding the use of traditional secondary optics for LED illumination applications. The FPLS is first designed based on energy conservation principles and ray mapping techniques, and improved through feedback optimization algorithms. Both simulation data and experimental data are employed successively to improve the illumination uniformity on the target plane. Meanwhile, the divergence angle of the FPLS is further improved to achieve a more uniform irradiance distribution pattern of the LED luminaire array on the target plane with an ultrashort projection distance between source and target. We demonstrate the concept by designing and manufacturing an FPLS; the experimental data show that, with h / D = 0.98 of the optical system, the relative standard deviation of the target area reaches 0.22 within the divergence angle of 120 deg.

Citation Download Citation

Zhengbo Zhu, Yiming Yan, Shili Wei, Zichao Fan, and Donglin Ma "Compact freeform primary lens design based on extended Lambertian sources for liquid crystal display direct-backlight applications," Optical Engineering 58(2), 025108 (23 February 2019). https://doi.org/10.1117/1.OE.58.2.025108

Received: 12 December 2018; Accepted: 30 January 2019; Published: 23 February 2019

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