Photonic packaging using laser/receiver arrays and flexible optical circuits

Photonic packaging using laser/receiver arrays and flexible optical circuits

Optoelectronic modules and multifiber optical connectors were successfully applied to intrasystem interconnection within a large telecommunication transmission terminal. The optoelectronic modules are 32-channel 850 nm vertical cavity surface emitting laser (VCSEL) and detector arrays packaged using...

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Bibliographic Details
Published in:IEEE transactions on components, packaging, and manufacturing technology. Part B, Advanced packaging Vol. 20; no. 4; pp. 409 - 415
Main Authors: Grimes, G.J., Markush, J.P.C., Yiu-Man Wong, Anthony, P.J., Holland, B., Priest, E.G., Sherman, C.J., Peck, S.R., Muehlner, D.J., Faudskar, C.C., Nyquist, J.S., Helton, J.S., Lepthian, C.A., Sonnier, G.L., Gates, J.V., Honea, W.K., Bortolini, J.R.
Format: Journal Article
Language:English
Published: New York, NY IEEE 01-11-1997
Institute of Electrical and Electronics Engineers
Subjects:
Applied sciences
Circuit properties
Connectors
Electric, optical and optoelectronic circuits
Electronic equipment and fabrication. Passive components, printed wiring boards, connectics
Electronics
Exact sciences and technology
Integrated circuit technology
Integrated optoelectronics. Optoelectronic circuits
Optical and optoelectronic circuits
Optical arrays
Optical fiber cables
Optical interconnections
Optical receivers
Packaging
Stimulated emission
Surface emitting lasers
Vertical cavity surface emitting lasers
Flexible printed circuit board
Vertical cavity laser
Detector array
Optoelectronics
Electronic packaging
Surface emitting laser
Optical connector
Optical interconnection
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Summary:Optoelectronic modules and multifiber optical connectors were successfully applied to intrasystem interconnection within a large telecommunication transmission terminal. The optoelectronic modules are 32-channel 850 nm vertical cavity surface emitting laser (VCSEL) and detector arrays packaged using multichip module technology system components include multimode silica optical fibers and silicon V-groove technology based multifiber optical connectors. The system architecture presented particularly difficult challenges for parallel optics because of complex cable assemblies required by the fan-out nature of the cables and the signal bifurcation needed to accomplish duplication, Nevertheless, the experiments completed demonstrate that parallel optics can dramatically increase the capacity of telecommunications equipment with no significant changes in system or physical architecture. The density of the optical modules and connectors clearly demonstrates that optical interconnection technology will be able to support the input/output (I/O) requirements of new generations of integrated circuit technology.
ISSN:1070-9894
1558-3686
DOI:10.1109/96.641509