Title :
Energy-Autonomous Picocell Remote Antenna Unit for Radio-Over-Fiber System Using the Multiservices Concept
Author :
Lethien, Christophe ; Wake, David ; Verbeke, Bernard ; Vilcot, Jean-Pierre ; Loyez, Christophe ; Zegaoui, Malek ; Gomes, Nathan ; Rolland, Nathalie ; Rolland, Paul-Alain
Author_Institution :
History of Sci. Dept., Inst. d´´Electron. de Microelectron. et de Nanotechnol. (IEMN)-IRCICA, Villeneuve-d´´Ascq, France
fDate :
4/15/2012 12:00:00 AM
Abstract :
The study reported in this letter deals with the extension of the multiservices concept to radio-over-fiber systems with energy-autonomous picocell remote antenna units. Continuous-power, radio-frequency, and digital signals have been combined in a single multimode fiber for the first time. The results clearly demonstrate no impairment of the optically powered remote antenna unit compared to an electrically powered version. The proposed system complies with the classical baseband Ethernet high-data-rate network (10 GbE bit error rate 10-12). The measured error vector magnitude for the radio-frequency (IEEE802.11g) signal transmission through the designed system stays around 2%, including both the optical transmission over 100-m OM3 multimode fiber and a wireless coverage of 5 m.
Keywords :
error statistics; microwave antennas; microwave photonics; picocellular radio; radio-over-fibre; telecommunication services; wireless LAN; Ethernet; IEEE802.11g; bit error rate; multiservices; picocell remote antenna unit; radio-over-fiber system; single multimode fiber; Optical amplifiers; Optical fiber amplifiers; Optical fiber devices; Optical fiber networks; 10 GbE; energy-autonomous access point; multimode fiber; radio-over-fiber (ROF); wavelength multiplexing; zero-power devices;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2012.2185224
