Photonics-based modular multistate digital coherent system

I. V. Unchenko, A. A. Emelyanov
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Abstract

Objectives. The study aimed to develop interspecies and interclass methods for constructing coherent radio engineering systems based on a modular complementary structure.Methods. A set of modules and submodules having no narrow specialization and together constituting a flexible broadband hardware-reconfigurable software-defined radio engineering structure is considered as the basic set for constructing a digital radio photonic system path. Due to their broadbandness and complementary structure, modules and submodules have many applications both as self-sustained devices and as part of more complex systems.Results. Functional diagrams of modern digital receiver-shapers, as well as modules for amplifying radio frequency signals and converting radio frequency signals into an optical signal are presented along with a radio photonic synchronization network for generating clock signals. Calculations of the introduced phase error of a quartz singlemode fiber and graphs of the dependence of the change in the signal phase on external influencing factors are given. A concept for integrating the presented modules into the construction of a modular transceiver multiposition wideband coherent digital radio photonic system is proposed. The results of calculating radiation patterns and mathematical modeling the beam deflection of a broadband antenna array are presented along with antenna systems based thereon.Conclusions. The proposed circuit design solutions allow the time required for developing new types of systems to be significantly reduced due to the range of ready-made technical solutions. Not only are the parameters of the developed devices comparable to the best world analogues, but they also surpass existing solutions in terms of system integration. The developments have been tested under R&D project at the Kaluga Scientific Research Institute of Radio Technology and Hardware Solution Technologies (TAR). The proposed solutions are integrated at the subsystem level into advanced developments of products for civil and special purpose. Further development of the concept of building ultra-wideband devices allows reaching a new level in the technology of constructing modular multiposition coherent digital radio photonic systems.
基于光子学的模块化多态数字相干系统
目标。本研究旨在发展基于模块化互补结构的相干无线电工程系统的种间、类间构建方法。一组没有狭窄专门化的模块和子模块共同构成了一个灵活的宽带硬件可重构软件定义无线电工程结构,这是构建数字无线电光子系统路径的基本集合。由于它们的宽带和互补结构,模块和子模块有许多应用,无论是作为自我维持的设备还是作为更复杂系统的一部分。介绍了现代数字接收机成形器的功能图,以及射频信号放大和射频信号转换为光信号的模块,以及用于产生时钟信号的无线电光子同步网络。给出了石英单模光纤引入相位误差的计算和信号相位变化与外界影响因素的关系图。提出了一种将所述模块集成到模块化收发器多位置宽带相干数字无线电光子系统的概念。给出了宽带天线阵辐射方向图的计算结果和基于此的天线系统的波束偏转的数学建模。由于现成的技术解决方案的范围,所提出的电路设计解决方案允许开发新型系统所需的时间大大减少。开发的设备不仅参数可与世界上最好的同类产品相媲美,而且在系统集成方面也超越了现有的解决方案。这些发展已经在卡卢加无线电技术和硬件解决方案技术科学研究所(TAR)的研发项目下进行了测试。提出的解决方案在子系统级别集成到民用和专用产品的先进开发中。构建超宽带器件概念的进一步发展使得构建模块化多位置相干数字无线电光子系统的技术达到了一个新的水平。
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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