Receiver design for digital fiber optic communication systems, II

Bell System Technical Journal Pub Date : 1973-07-08 DOI:10.1002/J.1538-7305.1973.TB01993.X

S. Personick

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引用次数: 711

Abstract

This paper is concerned with a systematic approach to the design of the “linear channel” of a repeater for a digital fiber optic communication system. In particular, it is concerned with how one properly chooses the front-end preamplifier and biasing circuitry for the photodetector; and how the required power to achieve a desired error rate varies with the bit rate, the received optical pulse shape, and the desired baseband-equalized output pulse shape. It is shown that a proper front-end design incorporates a high-impedance preamplifier which tends to integrate the detector output. This must be followed by proper equalization in the later stages of the linear channel. The baseband signal-to-noise ratio is calculated as a function of the preamplifier parameters. Such a design provides significant reduction in the required optical power and/or required avalanche gain when compared to a design which does not integrate initially. It is shown that, when the received optical pulses overlap and when the optical channel is behaving linearly in power,1 baseband equalization can be used to separate the pulses with a practical but significant increase in required optical power. This required power penalty is calculated as a function of the input and equalized pulse shapes.

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数字光纤通信系统接收机设计[j]

本文研究了数字光纤通信系统中继站“线性信道”的系统设计方法。特别地，它涉及如何正确地选择光电探测器的前端前置放大器和偏置电路;以及实现期望错误率所需的功率如何随比特率、接收的光脉冲形状和期望的基带均衡输出脉冲形状而变化。结果表明，适当的前端设计包含一个高阻抗前置放大器，它倾向于集成检测器输出。这必须在线性通道的后期进行适当的均衡。基带信噪比作为前置放大器参数的函数进行计算。与最初不集成的设计相比，这样的设计提供了所需光功率和/或所需雪崩增益的显着降低。结果表明，当接收到的光脉冲重叠且光通道的功率呈线性时，可以使用1基带均衡来分离脉冲，但所需的光功率显着增加。所需的功率惩罚是作为输入和均衡脉冲形状的函数来计算的。

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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Bell System Technical Journal

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