2020
DOI: 10.1109/joe.2018.2876049
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Design, Characterization, and Test of a Versatile Single-Mode Power-Over-Fiber and Communication System for Seafloor Observatories

Abstract: A power-over-fiber (PoF) and communication system for extending a cabled seafloor observatory is demonstrated in this contribution. The system allows the cabled seafloor observatory to be linked, through a single optical fiber, to a sensor node located 8 km away. The PoF system is based on an optical architecture in which power and data propagate simultaneously on the same single-mode fiber. The Raman scattering effect is exploited to amplify the optical data signals and leads to the minimization of the sensor… Show more

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Cited by 23 publications
(19 citation statements)
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“…As in high-voltage and high EMI environments [4], [5], to optically power remote antenna units [6]- [9], in defense applications [10], for temperature measurements with optical fiber pyrometers in hazardous environments [11] or to feed a video surveillance system [12], but for mostly applied to a single remote sensor. PoF is also used to monitor and control the position of fiber optic connectors in passive optical networks (PONs) [13], in-service PON monitoring [14], as well as a solution for powering remote nodes for measurements of turbidity and acoustic in seafloor [15]. Some PoF designs include either multiple sensor feeding capabilities [16]- [18] or are able to provide a feedback data communication link to the PoF transmitter [19].…”
Section: Introductionmentioning
confidence: 99%
“…As in high-voltage and high EMI environments [4], [5], to optically power remote antenna units [6]- [9], in defense applications [10], for temperature measurements with optical fiber pyrometers in hazardous environments [11] or to feed a video surveillance system [12], but for mostly applied to a single remote sensor. PoF is also used to monitor and control the position of fiber optic connectors in passive optical networks (PONs) [13], in-service PON monitoring [14], as well as a solution for powering remote nodes for measurements of turbidity and acoustic in seafloor [15]. Some PoF designs include either multiple sensor feeding capabilities [16]- [18] or are able to provide a feedback data communication link to the PoF transmitter [19].…”
Section: Introductionmentioning
confidence: 99%
“…So, it only compensates the link gain, but not the noise figure. To solve this problem and to reduce the noise figure, we consider now to have a remote LNA at the RWR antenna, and to use the PoF technology to feed it 20 .…”
Section: Discussion and Conclusionnmentioning
confidence: 99%
“…In order that the system does not lose its proposed characteristic of being totally photonic, a technology called power-over-fiber (PoF) can be used. PoF consists in feeding electronic devices located in remote regions of difficult access or dangerous environments 20 .…”
Section: Methodsmentioning
confidence: 99%
“…In [14], they experimentally provide 107 mW with no overall efficiency, using a 17% single PV cell efficiency and they proposed using 8 nodes at 5 km with 50 mW in each nodes, but no measurements are reported. In [11], they launch 2.5 W optical power in the system and provide an electrical power of 190 mW using 4 PV cells in 8 km optical power delivery using a SMF, reaching an efficiency of 7.5%. Lower than in our case and at a shorter distance.…”
Section: Dmentioning
confidence: 99%
“…On the other hand, Spatial Division Multiplexing using multicore fibers (MCF) versus bundles of optical fibers for ARoF transport in combination with PoF is proposed for 5G high-bandwidth fronthauling in the EU H2020 5G-PPP project blueSPACE [10]. Recently, SMFs have been used [11] for feeding with 190 mW electrical power a sensor node located 8 km away in a cabled seafloor observatory. The already installed SMF make it an attractive solution when convergence between wireless and optical access networks is considered.…”
Section: Introductionmentioning
confidence: 99%