Abstract
A white-lighting and wavelength-division-multiplexing (WDM)-visible light communication (VLC) system with over 20 m of free-space distance and 3 m of lighting distance is demonstrated via a red/green/blue (R/G/B) triple-source polarization-multiplexing scheme, transmission gratings, and an engineered diffuser with a double-convex lens. Integrating four-level pulse amplitude modulation (PAM4) with a triple-source polarization-multiplexing scheme, the aggregate transmission rate is noticeably enhanced to 300 Gb/s [${{50}}\;{\rm{Gb/s}}\;{\rm{PAM4/source}} \times {{3}}\;{\rm{sources}} \times {{2}}\;{\rm{polarizations}}$ ($p$- and $s$-polarizations)]. White-light is produced by multiplexing the R/G/B lights with two transmission gratings and separated by demultiplexing them using the other two transmission gratings. By adopting an engineered diffuser with a double-convex lens, the white-light is diffused over 3 m of free-space distance to provide general white-light illumination (${\gt}{{100}}\;{\rm{lux}}$). This demonstrated white-lighting and WDM-VLC system meets a high aggregate transmission rate with a qualified indoor lighting target. It opens up a new category for lighting and communication.
© 2020 Optical Society of America
Full Article | PDF ArticleMore Like This
Zixian Wei, Codey Nacke, Mostafa Khalil, Hao Sun, Kyle Stitt, James Lougheed, Lawrence R. Chen, and David V. Plant
Opt. Lett. 48(14) 3661-3664 (2023)
Aiying Wang, Yichun Liu, Xiao-Jun Wang, and Feng Liu
Opt. Lett. 45(10) 2720-2723 (2020)
Hsi-Hsir Chou and Kang-Yun Liu
Opt. Lett. 46(21) 5381-5384 (2021)