用于10Mb/s 70m范围led空间光通信的CMOS图像传感器

S. Itoh, Isamu Takai, M. Sarker, M. Hamai, K. Yasutomi, M. Andoh, S. Kawahito
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引用次数: 25

摘要

空间光通信近年来在移动局域网通信系统,特别是在汽车应用中受到广泛关注。与无线电通信相比,它具有抗干扰性强、不需要电磁波而对人体安全、寻址功能强等优点。图像传感器通信(ISC)技术在空间光通信中具有重要的应用价值,因为为了在接收端找到光源并增强光能量密度,光接收端必须具有信号光源查找和跟踪功能。已经报道了一些国际合作委员会的办法。CMOS ISC芯片已被用于ID信标检测[1][2],其中需要非常低的数据速率。在一种用于光学无线局域网应用的ISC芯片[3]中,已经演示了几百MHz的数据速率。然而,在这种方法中,二维探测器阵列的光电二极管电流直接流入外部接收器电路,因此需要使用激光的极大光功率。作者报道了一种用于led光通信的ISC芯片[4]。在该芯片中,比特率仅为1Mb/s,通信范围仅为几米。虽然该芯片声称具有信号光源跟踪功能,但没有实验结果。本文介绍了一种CMOS ISC芯片,在实现寻光和跟踪功能的同时,利用LED光源实现了系统10Mb/s以上50米的高速远距离空间光通信。提高数据速率和跟踪性能的关键技术是利用耗尽二极管、脉冲均衡和二进制标志图像读出的新像素结构来找到准确的光源面积。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A CMOS image sensor for 10Mb/s 70m-range LED-based spatial optical communication
Spatial optical communication has recently been of interest in the mobile local-area communication systems, especially in the automotive applications. It has many advantages over the radio communication such as robustness to jamming, human safety due to lack of electromagnetic waves and sender finding function. The image sensor communication (ISC) technology is useful for the spatial optical communication because to find the light source and to intensify the light energy density at the receiver, the optical receiver has to have signal light source finding and tracking functions. A few approaches for the ISC have been reported. CMOS ISC chips have been used for ID beacon detection [1] [2], where very low data rate is required. In an ISC chip for optical wireless LAN application [3], the data rate of several hundreds of MHz has been demonstrated. In this approach, however, photo-diode current of a 2-D detector array directly flows into external receiver circuits, and because of this, extremely large optical power using laser lights is required. The authors have reported an ISC chip for LED-light communications [4]. In this chip, the bit rate of 1Mb/s and the communication range of a few meters only have been demonstrated. Though the chip claims the function of signal light source tracking, no experimental results have been shown. This paper presents a CMOS ISC chip which demonstrates that the high-speed long-distance spatial optical communication over 10Mb/s and 50meters are realized for the system using LED light sources while attaining signal-light finding and tracking functions. The key techniques to improve the data rate and tracking performance are a new pixel structure using depleted diode, pulse equalizing, and binary flag image readout to find the exact area of light source.
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