Implementation of a Full Optically-Powered 5G NR Fiber-Wireless System
We report the implementation of a full optically-powered 5G new radio (5G NR) fiber-wireless (FiWi) system based on power-over-fiber (PoF) and radio-over-fiber (RoF) technologies. Our approach enables the simultaneous transmission of a 5G NR signal at 3.5 GHz with bandwidth up to 100 MHz and a 2.2-W...
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Published in | IEEE photonics journal Vol. 14; no. 1; pp. 1 - 8 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
Piscataway
IEEE
01.02.2022
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
Subjects | |
Online Access | Get full text |
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Summary: | We report the implementation of a full optically-powered 5G new radio (5G NR) fiber-wireless (FiWi) system based on power-over-fiber (PoF) and radio-over-fiber (RoF) technologies. Our approach enables the simultaneous transmission of a 5G NR signal at 3.5 GHz with bandwidth up to 100 MHz and a 2.2-W optical power signal employing dedicated fiber-optics links. The optical-wireless data link consists of a 12.5-km single-mode fiber (SMF) optical fronthaul followed by a 10-m wireless propagation environment, which is the longest wireless reach reported in literature up to now, regarding optically-powered FiWi systems. The proposed PoF system is able to deliver stable electrical power up to 475 mW, by means of using a 100-m multimode fiber (MMF) link, with the purpose of optically powering a 5G NR remote antenna unit (RAU). An overall power transmission efficiency (PTE) of 23.5% is experimentally demonstrated in a real 5G NR system. Furthermore, the FiWi system performance is investigated in accordance with the <inline-formula><tex-math notation="LaTeX">3^{\mathrm rd}</tex-math></inline-formula> generation partnership project (3GPP) Release 15 requirements, in terms of root mean square error vector magnitude (<inline-formula><tex-math notation="LaTeX">{\mathrm EVM}_{\mathrm RMS}</tex-math></inline-formula>). The proposed optically-powered 5G NR FiWi system provides 500 Mbit/s throughput with <inline-formula><tex-math notation="LaTeX">{\mathrm EVM}_{\mathrm RMS}</tex-math></inline-formula> as low as 3.9%, employing 64-quadrature amplitude modulation (QAM) without using optical amplification. |
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ISSN: | 1943-0655 1943-0655 1943-0647 |
DOI: | 10.1109/JPHOT.2022.3144368 |