A meter-scale 600-Mb/s 2×2 imaging MIMO OOK VLC link using commercial LEDs and Si p-n photodiode array

2017 26th Wireless and Optical Communication Conference (WOCC) Pub Date : 2017-04-07 DOI:10.1109/WOCC.2017.7928983

B. Fahs, Matthew J. Senneca, Jeffrey Chellis, Brandon Mazzara, S. Ray, J. Ghasemi, Yun Miao, P. Zarkesh-Ha, V. Koomson, M. Hella

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引用次数: 9

Abstract

This paper presents a free-space 4-channels imaging multiple-input multiple-output (MIMO) system for On-Off-Keying (OOK) Visible-Light-Communication (VLC) links. An aggregate data-rate of 600 Mb/s is measured over 6 meters link distance with a bit-error-rate (BER) below 10−3 with the 4-channels simultaneously modulated. While the majority of published VLC works to date use components-off-the-shelf (COTS) PIN or Avalanche PDs that require both non-standard and/or higher cost fabrication processes as well as high reverse bias potential, the presented receiver in this paper employs a 2×2 on-chip Nwell/Psub photodiodes (PD) array fabricated in a low cost CMOS-compatible process. To extract high data rate performance out of the proposed CMOS low speed PD array, a 2nd-order LCR equalization is used to compensate for the stringent bandwidth limitation of the PD, measured around 20 MHz and push the speed up to 150 Mbps/channel. With a red light-emitting-diode (LED) array at 650 nm, the 4-channels MIMO setup DC power consumption is 1.38 W, which represents to our knowledge an energy-per-bit record performance for OOK VLC systems of 2.3 nJ/bit.

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一个米级600 mb /s 2×2成像MIMO OOK VLC链路使用商用led和Si p-n光电二极管阵列

本文提出了一种自由空间4通道成像多输入多输出(MIMO)系统，用于开-关键(OOK)可见光通信(VLC)链路。在6米的链路距离上测量到的总数据速率为600mb /s，误码率(BER)低于10−3,4通道同时调制。迄今为止，大多数已发表的VLC作品都使用现成的组件(COTS) PIN或Avalanche PD，这些组件需要非标准和/或更高成本的制造工艺以及高反向偏置电位，而本文提出的接收器采用2×2片上Nwell/Psub光电二极管(PD)阵列，以低成本的cmos兼容工艺制造。为了从所提出的CMOS低速PD阵列中提取高数据速率性能，使用二阶LCR均衡来补偿PD的严格带宽限制，测量约为20 MHz，并将速度提高到150 Mbps/信道。使用650 nm的红色发光二极管(LED)阵列，4通道MIMO设置直流功耗为1.38 W，据我们所知，OOK VLC系统的每比特能量记录性能为2.3 nJ/bit。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 26th Wireless and Optical Communication Conference (WOCC)

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