采用反射半导体光放大器的全光频率编码位奇偶校验器，并进行了仿真验证

IF 0.6 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Facta Universitatis-Series Electronics and Energetics Pub Date : 2022-01-01 DOI:10.2298/fuee2201029b

Surajit Bosu, Baibaswata Bhattacharjee

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引用次数: 2

摘要

高速信号计算和通信是现代通信的重要组成部分，增加了对光学的需求。因此，研究人员在全光领域开发了不同类型的数字器件。由于反射半导体光放大器(rsoa)增益介质的通用性，它在无源光网络中有着多种重要的应用。与半导体光放大器(SOA)相比，由于其双通特性，rsoa具有更好的增益性能。因此，RSOA显示出更好的切换特性。在该通信中，采用RSOA的协同传播方案设计并分析了基于频率编码的位元奇偶校验发生器。本设计充分利用了RSOA高开关速度、低噪声、高增益和低功耗等优点，实现了RSOA高开关速度、低噪声和低功耗的特点。本设计在MATLAB中进行仿真，仿真结果准确验证了真值表的正确性。

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All-optical frequency encoded dibit-based parity generator using reflective semiconductor optical amplifier with simulative verification

High-speed signal computation and communication are an essential part of modern communication that increases optical necessity. Therefore, researchers developed different types of digital devices in the all-optical domain. Due to the versatile gain medium of reflective semiconductor optical amplifiers (RSOAs), it has various important applications in passive optical networks. In comparison with semiconductor optical amplifier (SOA), RSOAs exhibit better gain performance because of their double pass property. Therefore, RSOA shows better switching properties. In this communication, co-propagation scheme of RSOA is used to design and analyze a frequency encoded dibit-based parity generator. Taking the advantages of RSOA like high switching speed, low noise, high gain, and low power consumption, the proposed design achieves these qualities. This design simulated in MATLAB and simulated outputs accurately verify the truth table.

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来源期刊

Facta Universitatis-Series Electronics and Energetics ENGINEERING, ELECTRICAL & ELECTRONIC-

自引率

16.70%

发文量

审稿时长

20 weeks