Performance Analysis of Mid-Wave Optical Receiver based on Barrier Upside-down nBn Photodetectors for Free Space Optical Wireless Communication Systems

2022 Iranian International Conference on Microelectronics (IICM) Pub Date : 2022-12-20 DOI:10.1109/IICM57986.2022.10152301

Maryam Shaveisi, P. Aliparast

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Abstract

Nowadays, Infrared Optical Detectors (IOD) play a very important role in the receivers of optical communication systems. The pin and APD photo-detectors are popular photo-detectors that act as receivers of optical signals. In this paper, we introduce a new structure called barrier upside-down nBn photo-detector (BU-nBn PD) for using in Free Space Optical Wireless Communication (FSOWC) systems which has a high capability. In the proposed structure, the absorber layer is selected from InAsSb (xsb=0.19) compound semiconductor, because it has a higher cutoff wavelength than the conventional commercially nBn photo-detectors with InAsSb (xsb=0.09). The simulation results indicate that the dark current of this photo-detector is 10−10A/cm2 at 150K. Also, noise and signal-to-noise ratio (SNR) analysis are investigated which are two important and influencing factors in designing this device as a FSOWC receiver. In the proposed photo-detector, the noise and noise-equivalent-power (NEP) are 5.73×10−13 (AHz−1/2) and 6.24×10−13 (WHz1/2), respectively, at bias voltage of 0.5 V and 150 K.

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自由空间光通信系统中基于位垒倒置nBn光电探测器的中波光接收机性能分析

目前，红外光探测器(IOD)在光通信系统的接收机中起着非常重要的作用。引脚和APD光电探测器是流行的光电探测器，作为光信号的接收器。本文介绍了一种用于自由空间光无线通信(FSOWC)系统的具有高性能的新型势垒倒置nBn光探测器(BU-nBn PD)。在所提出的结构中，吸收层选择了InAsSb (xsb=0.19)化合物半导体，因为它比传统的InAsSb (xsb=0.09)的商用nBn光电探测器具有更高的截止波长。仿真结果表明，该光电探测器在150K时的暗电流为10−10A/cm2。同时，研究了噪声和信噪比(SNR)分析这两个影响器件设计的重要因素。在所提出的光电探测器中，在0.5 V和150 K的偏置电压下，噪声和噪声等效功率分别为5.73×10−13 (AHz−1/2)和6.24×10−13 (WHz1/2)。

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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2022 Iranian International Conference on Microelectronics (IICM)

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