Open AccessHighly efficient active optical interconnect incorporating a partially chlorinated ribbon POF in conjunction with a visible VCSEL
Author(s) -
HakSoon Lee,
SangShin Lee,
Kim Bong-Seok,
YungSung Son
Publication year - 2014
Publication title -
optics express
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.394
H-Index - 271
ISSN - 1094-4087
DOI - 10.1364/oe.22.011778
Subject(s) - optics , ribbon , collimated light , materials science , vertical cavity surface emitting laser , optical interconnect , optoelectronics , interconnection , transmission (telecommunications) , insertion loss , transmitter , optical communication , physics , laser , telecommunications , computer science , channel (broadcasting) , composite material
A low-loss 4-ch active optical interconnect (AOI) enabling passive alignment was proposed and built resorting to a transmitter (Tx) incorporating a red 680-nm VCSEL, which is linked to a receiver (Rx) module via a partially chlorinated ribbon POF. The POF was observed to exhibit an extremely low loss of ~0.24 dB/m at λ = 680 nm, in comparison to ~1.29 dB/m at λ = 850 nm, and a large numerical aperture of ~0.42. Both the Tx and Rx, which taps into a beam router based on collimated beam optics involving a pair of spherical lenses, were meant to be substantially alignment tolerant and compact. The achieved tolerance for the constructed modules was beyond 40 μm in terms of the positioning of VCSEL and photodetector. The proposed AOI was completed by linking the Tx with the Rx via a 3-m long ribbon POF, incurring a transmission loss of as small as 3.2 dB. The AOI was practically assessed in terms of a high-speed data transmission over a wide range of temperatures and then exploited to convey full HD video signals.