Fiber optic communication technology: August 23-24, 1984, San Diego, California
University of Arizona. Optical Sciences Center, University of Rochester. Institute of Optics, Society of Photo-optical Instrumentation Engineers
SPIE--the International Society for Optical Engineering, 1985 - Technology & Engineering - 146 pages
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analog applications area networks bandwidth branching devices buffer channel characteristics chromatic dispersion coherent components concatenated connector loss coupled data rate dB/km degradation demultiplexer detection detector distortion electronic equation equipment ferrule fiber cable fiber end fiber optic fiber optic communication fiber optic connectors fiber optic systems fiber systems fiber-optic frequency fusion splicing glass IEEE increased input insertion loss installation interconnect jacket LANs laser diode length limited low loss Mb/s Mbit/s measured mechanical splices meters method microbending misalignment modal noise modulation multimode fiber operating optic cables optical fiber optical power optical signal optical source optoelectronic OTDR output parameters performance photodetector PORT pulse range result shown in Figure single mode fibers single-mode fiber spectral width star coupler strength member techniques temperature throughput topology transmission transmitter typical waveguide Wavelength Division Multiplexing wideband