Multigigabit data-rate optical communication depicting LEO-to-GEO and GEO-to-ground links

Details Multigigabit data-rate optical communication depicting LEO-to-GEO and GEO-to-ground links Multigigabit data-rate optical communication depicting LEO-to-GEO and GEO-to-ground links

Apr 2002

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002spie.4635..295h&link_type=abstract

Proc. SPIE Vol. 4635, p. 295-301, Free-Space Laser Communication Technologies XIV, G. Stephen Mecherle; Ed.

Physics

Optics

Scientific paper

Communication links with multi-giga-bits per sec (Gbps) data-rates depicting both LEO-GEO and GEO-to-Ground optical communications were characterized in the laboratory. A 5.4 Gbps link, with a capability of 7.5 Gbps, was demonstrated in the laboratory. The breadboard utilized a 13 cm diameter telescope as the transmit aperture that simulates the LEO terminal. The receiver is a 30-cm telescope that simulates the GEO terminal. The objective of the laboratory breadboard development is to validate the link analysis and to demonstrate a multi-gigabit link utilizing off-the-shelf or minimally modified commercially available components (optics and opto-electronics) and subsystems. For a bit-error-rate of 1E-7, the measured required received signal is within 1 to 2 dB of that predicted by the link analysis.

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