Paul W. Marshall,1 Cheryl J. Dale,2 Martin E. Fritz,3 Michael de la Chapelle,3 Martin A. Carts,1 Kenneth A. LaBel4
1Naval Research Lab. and SFA, Inc. (United States) 2Naval Research Lab. (United States) 3Boeing Defense & Space Group (United States) 4NASA Goddard Space Flight Ctr. (United States)
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In-situ measurements of proton-induced system level errors are reported for newly designed and fabricated hardware implementing an operational 200 Mbps linear token passing fiber optic data bus. Parametric analysis of key single-particle-event and total-ionizing-dose variables affecting components is used to quantify system response and predict on-orbit performance.
Paul W. Marshall,Cheryl J. Dale,Martin E. Fritz,Michael de la Chapelle,Martin A. Carts, andKenneth A. LaBel
"Total ionizing dose and single particle effects in a 200-Mbps star-coupled fiber optic data bus", Proc. SPIE 2482, Photonics for Space Environments III, (30 May 1995); https://doi.org/10.1117/12.210535
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Paul W. Marshall, Cheryl J. Dale, Martin E. Fritz, Michael de la Chapelle, Martin A. Carts, Kenneth A. LaBel, "Total ionizing dose and single particle effects in a 200-Mbps star-coupled fiber optic data bus," Proc. SPIE 2482, Photonics for Space Environments III, (30 May 1995); https://doi.org/10.1117/12.210535