Institute for Electric Light Sources, School of Information Science and Technology, Engineering Research Center of Advanced Lighting Technology, Ministry of Education, Fudan University , Shanghai 200433, China.
ACS Appl Mater Interfaces. 2018 Feb 14;10(6):5641-5648. doi: 10.1021/acsami.7b17810. Epub 2018 Jan 31.
This work proposes a high-bandwidth white-light system consisting of a blue gallium nitride (GaN) micro-LED (μLED) exciting yellow-emitting CsPbBrI perovskite quantum dots (YQDs) for high-speed real-time visible light communication (VLC). The packaged 80 μm × 80 μm blue-emitting μLED has a modulation bandwidth of ∼160 MHz and a peak emission wavelength of ∼445 nm. The achievable bandwidth of the white-light system is up to 85 MHz in the absence of filters and equalization technology. Meanwhile, the bandwidth of the YQDs as a color converter is as high as 73 MHz with the blue GaN μLED as the pump source. A maximum data rate of 300 Mbps can be achieved by taking advantage of the high bandwidth of the white-light system using the non-return-to-zero on-off keying (NRZ-OOK) modulation scheme. The resultant bit-error rate is 2.0 × 10, well beneath the forward error correction criterion of 3.8 × 10 required for error-free data transmission. In addition, the YQDs which we proposed as a color converter possess high stability for VLC. After half a year, the achievable bandwidths of the white-light system and the YQDs are still up to 83 and 70 MHz, respectively. This study provides the direction of developing high-bandwidth white-light system for both high-efficiency solid-state lighting and high-speed VLC.
本工作提出了一种高速实时可见光通信(VLC)用的高速白光系统,该系统由蓝 GaN 微发光二极管(μLED)激发黄荧光 CsPbBrI 钙钛矿量子点(YQDs)构成。80μm×80μm 的蓝光发射 μLED 封装后具有约 160MHz 的调制带宽和 445nm 的峰值发射波长。在没有滤波器和均衡技术的情况下,白光系统的可达带宽高达 85MHz。同时,以蓝 GaN μLED 为泵浦源时,YQDs 作为色转换材料的带宽高达 73MHz。利用白光系统的高带宽,采用非归零开关键控(NRZ-OOK)调制方案,可实现 300Mbps 的最高数据速率。误码率为 2.0×10 ,远低于无误数据传输所需的前向纠错标准 3.8×10 。此外,我们提出的 YQDs 作为色转换材料,在 VLC 中具有高稳定性。半年后,白光系统和 YQDs 的可达带宽仍分别高达 83MHz 和 70MHz。本研究为高效率固态照明和高速 VLC 用高速白光系统的发展提供了方向。
