As demands for high-speed data transmission continue to escalayoute, advancements in circuit technologies for optical communication systems are paramount. This study focuses on enhancing high-speed data transmission capabilities in multi-core optical fiber (MCF) systems. A comprehensive approach was undertaken, leveraging state-of-the-art circuit design techniques and integrating them with MCF infrastructure. The design aimed at achieving a self-power supply transmission capability of 14.1 Wkm and a data rate of 10 Gbps. This research presents a novel circuit design tailored specifically for high-speed data transmission in MCF systems. By combining advanced circuitry with MCF technology, the study contributes to significantly improving data transmission efficiency and capacity. The developed circuit technology achieved remarkable results, demonstrating a self-power supply transmission capability of 14.1 Wkm and supporting a data rate of 10 Gbps. These outcomes signify a substantial advancement in high-speed data transmission within optical communication systems utilizing MCF.
R. Gowrishankar1, S. Vijay2, Gangu Rama Naidu3, A. Thangam4, Shadab Ahmad5
KIT- Kalaignarkarunanidhi Institute of Technology, India1, Government Science College, Hassan, India2, Aditya Engineering College, India3, Pondicherry University Community College, India4, Samara University, Ethiopia5
Circuit Technologies, High-Speed Data Transmission, Multi-core Optical Fiber, Optical Communication Systems, Self-power Supply Transmission
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| Published By :
ICTACT
Published In :
ICTACT Journal on Microelectronics
( Volume: 10 , Issue: 1 , Pages: 1737 - 1741 )
Date of Publication :
April 2024
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68
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