Title :
Bidirectional multimode-fiber communication links using dual-purpose vertical-cavity devices
Author :
Ingham, Jonathan D. ; Penty, Richard V. ; White, Ian H.
Author_Institution :
Dept. of Eng., Univ. of Cambridge
fDate :
3/1/2006 12:00:00 AM
Abstract :
This paper describes the development of novel multimode-fiber (MMF) communication links that achieve half-duplex bidirectional transmission over a single fiber through the use of 850-nm dual-purpose GaAs vertical-cavity optoelectronic devices. The dual-purpose devices are fabricated by focused-ion-beam micromachining (FIBM) of standard vertical-cavity surface-emitting lasers (VCSELs) and are able to be switched between operation as either efficient laser sources or as resonant-cavity-enhanced avalanche photodetectors. An avalanche multiplication factor of 10 is achieved at a reverse-bias voltage of 12.3 V. A 1.25-Gb/s half-duplex bidirectional data communication link is demonstrated and shown to allow error-free transmission of binary data over 500 m of standard 50-mum-core-diameter MMF. Receiver sensitivities for transceivers based upon these devices are predicted for the first time to be comparable with conventional data communication transceivers. Furthermore, a half-duplex analog bidirectional system is constructed, which permits the transmission of advanced RF modulation formats over MMF. Link characterization by error-vector magnitude (EVM) is described. The dual-purpose vertical-cavity devices are employed for bidirectional transmission of 32-symbol quadrature-amplitude-modulated (32-QAM) signals on a carrier frequency of 2 GHz, relevant to many current wireless local-area network and cellular standards. EVM as low as 1.3% rms is observed for a 600-m link of 62.5-mum-core-diameter MMF
Keywords :
avalanche photodiodes; cellular radio; data communication; error analysis; focused ion beam technology; laser cavity resonators; micromachining; optical fibre LAN; optical receivers; photodetectors; quadrature amplitude modulation; surface emitting lasers; transceivers; 1.25 Gbit/s; 12.3 V; 2 GHz; 50 mum; 500 m; 600 m; 62.5 mum; 850 nm; GaAs; GaAs optoelectronic devices; RF modulation formats; avalanche multiplication factor; avalanche photodetectors; bidirectional fiber communication; binary data; cellular standards; data communication link; dual-purpose devices; error-free transmission; error-vector magnitude; focused-ion-beam micromachining; half-duplex analog bidirectional system; half-duplex bidirectional transmission; link characterization; multimode-fiber communication links; quadrature-amplitude-modulated signals; receiver sensitivity; resonant-cavity-enhanced photodetectors; transceivers; vertical-cavity devices; vertical-cavity surface-emitting lasers; wireless local-area network; Data communication; Fiber lasers; Gallium arsenide; Micromachining; Optical fiber communication; Optical fiber devices; Optoelectronic devices; Surface emitting lasers; Transceivers; Vertical cavity surface emitting lasers; Bidirectional communication; multimode fiber (MMF); optical fiber LAN; photodiodes; radio over fiber; vertical-cavity surface-emitting lasers (VCSELs);
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2005.863254
