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TIA - EIA-455-62 - FOTP-62 MEASUREMENT OF OPTICAL FIBER MACROBEND ATTENUATION Organization: TIA
Date: 1992-10-01
Description: It may also indicate relative fiber performance affected by cabling curvature lays and in cable routings. The test is performed on uncabled fiber only, although the results may be useful in predicting fiber performance in cables or pigtails.
CEI 18-65 - ELECTRICAL INSTALLATIONS IN SHIPS PART 370: GUIDANCE ON THE SELECTION OF CABLES FOR TELECOMMUNICATION AND DATA TRANSFER INCLUDING RADIO-FREQUENCY CABLES Organization: CEI
Date: 2013-04-01
Description: Cables intended to have limited circuit integrity (fire resistance) when affected by fire are not covered by this technical report. Fibre optical cables are not included. Sub-sea or umbilical cables are not included.
IEC/TR 60092-370 - ELECTRICAL INSTALLATIONS IN SHIPS – PART 370: GUIDANCE ON THE SELECTION OF CABLES FOR TELECOMMUNICATION AND DATA TRANSFER INCLUDING RADIO-FREQUENCY CABLES - EDITION 1.0 Organization: IEC
Date: 2009-07-01
Description: Cables intended to have limited circuit integrity (fire resistance) when affected by fire are not covered by this technical report. Fibre optical cables are not included. Sub-sea or umbilical cables are not included.
DS/IEC/TR 60092-370 - ELECTRICAL INSTALLATIONS IN SHIPS - PART 370: GUIDANCE ON THE SELECTION OF CABLES FOR TELECOMMUNICATION AND DATA TRANSFER INCLUDING RADIO-FREQUENCY CABLES Organization: DS
Date: 2009-08-25
Description: Cables intended to have limited circuit integrity (fire resistance) when affected by fire are not covered by this technical report. Fibre optical cables are not included. Sub-sea or umbilical cables are not included.
WILEY - NANOTECHNOLOGY APPLICATIO - NANOTECHNOLOGY APPLICATIONS TO TELECOMMUNICATIONS AND NETWORKING Organization: WILEY
Date: 2006-01-01
Description: The author discusses emerging technologies as well as technologies under development that will lay the foundation for such innovations as: Nanomaterials with novel optical, electrical, and magnetic properties Faster and smaller non-silicon-based chipsets, memory, and processors New-science computers based on Quantum Computing Advanced microscopy and manufacturing systems Faster and smaller telecom switches, including optical switches Higher-speed transmission phenomena based on plasmonics and other quantum-level phenomena Nanoscale MEMS: micro-electro-mechanical systems The author of this cutting-edge publication has played a role in the development of actual nanotechnology-based communication systems.

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