Title :
Assembly technology for multi-fiber optical connectivity solutions
Author :
Bauknecht, R. ; Kunde, J. ; Krähenbühl, R. ; Grossman, S. ; Bosshard, Ch.
Abstract :
An assembly technology for a novel multi-fiber optical connectivity solution based on a V-groove alignment platform and microlens arrays was developed. Microlens array to substrate positioning by means of vision and of active alignment was employed for multi-mode fibers and single-mode fibers, respectively. A low-cost adhesive bonding technology was developed for attaching the microlens arrays to the substrates. Optical coupling losses (per lens transition) of well below 1 dB for multi-mode fibers, and below 0.5 dB for single mode fibers over 12 channels for 850 nm, 1300 nm and 1550 nm wavelength were achieved. Stable operation of the fiber/microlens assemblies during preliminary temperature cycling tests has been demonstrated. As the assembly process steps can be automated, this technology has potential to be employed for future low-cost multi-fiber optical connectivity solutions.
Keywords :
adhesive bonding; assembling; microlenses; optical arrays; optical fibre couplers; optical fibre fabrication; optical fibre losses; optical interconnections; 1300 nm; 1550 nm; 850 nm; V-groove alignment platform; active alignment; adhesive bonding technology; assembly technology; fiber-microlens assemblies; microlens arrays; multifiber optical connectivity; multimode fibers; optical coupling losses; single-mode fibers; Assembly; Bonding; Joining processes; Lenses; Microoptics; Optical arrays; Optical coupling; Optical fiber losses; Optical fiber testing; Temperature;
Conference_Titel :
Fibres and Optical Passive Components, 2005. Proceedings of 2005 IEEE/LEOS Workshop on
Print_ISBN :
0-7803-8949-2
DOI :
10.1109/WFOPC.2005.1462106
