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impurities in the fiber materialcausedthe signal loss in optical fibers
connectorscan causesevere attenuation of the optical signal
very little internal stresscausestransmission loss in optical fiber
Their combinationleadsto signal degradation in optical fiber Optical fiber
Their combinationleadsto signal degradation in optical fiber
optical disturbancesleadto attenuation in the optical signal
an excessively high concentration of OH groupcausesan increase in the attenuation of the optical fiber
two factors , absorption and scattering(passive) is caused byThe attenuation of glass optical fiber
Rayleigh scatteringcausesattenuation of optical signals
microbending difficultiescan causeattenuation in fiber optic cable
The scattered lightcausesinterference in the optical fiber
by both scattering and absorption(passive) is causedthat attenuation in optical fibre
primarily by both scattering and absorption(passive) is caused ... bythat attenuation in optical fibre
to restore the primary coating on spliced optical fibers with acrylate coatings(passive) are designedNyfors optical fiber recoaters
the cameraleadsthe optical fiber to transmit the signal
by impurities in manufacturing(passive) was causedattenuation of fiber optics
impurities in manufacturing(passive) was caused byattenuation of fiber optics
by impurities in manufacturing(passive) was caused byattenuation of fiber optics
factorscontributeto attenuation in an optical fibre
due to the following reasons(passive) can be causedAttenuation in optical fibres
signal distortionresultingfrom optical fibre impairments
for the termination of the miniature connectors including LC , MTRJ , MU and other small form - factor connectors that utilize these small diameter cables(passive) is designedZipcord Optical Fiber Cable
a transmission line 164 (composedof an optical fiber cable
primarily by both scattering and absorption.[10 ] Attenuation in fiber optics(passive) is caused ... byattenuation in optical fiber
the sensing elementcausesdeformation of the optical fiber
primarily by the two scattering and absorption(passive) is causedattenuation in optical fiber
primarily by both scattering and absorption(passive) is caused ... bythat attenuation in optical fiber
primarily ... both scattering and absorption(passive) is caused ... bythat attenuation in optical fiber
primarily by both scattering and absorption(passive) is caused ... byattenuation in optical fiber
primarily by both scattering and absorption.[10(passive) is caused ... bythat attenuation in optical fiber
by the two scattering and absorption(passive) is causedthat attenuation in optical fiber
by the two scattering and absorption(passive) is promptedthat attenuation in optical fiber
by the two scattering and absorption(passive) is causedattenuation in optical fiber
by both scattering and absorption(passive) is causedattenuation in optical fiber
by both scattering and absorption(passive) is promptedattenuation in optical fiber
by both of those scattering and absorption(passive) is promptedattenuation in optical fiber
by both of those scattering and absorption(passive) is causedattenuation in optical fiber
by both scattering and absorption(passive) is causedthat attenuation in optical fiber
by each scattering and absorption(passive) is promptedattenuation in optical fiber
by each scattering and absorption(passive) is promptedthat attenuation in optical fiber
the distortion(passive) caused bythe distortion
by bendingcausedby bending
for the transmission of a single ray or mode of light as a carrier and is used for long - distance signal transmissionis designedfor the transmission of a single ray or mode of light as a carrier and is used for long - distance signal transmission
power losses(passive) caused bypower losses
as the Miniature Optical Amplifierdesignedas the Miniature Optical Amplifier
for the transmission of a single ray or mode of light as a carrieris designedfor the transmission of a single ray or mode of light as a carrier
for creating virtual fibers to carry larger data , which consists of a multiplexer ondesignedfor creating virtual fibers to carry larger data , which consists of a multiplexer on
the fiber stress changes(passive) caused bythe fiber stress changes
for creating virtual fibers to carry larger data , which consists of a multiplexer on one end for combining the optical signals with different wavelengths into an integrated signal and a de - multiplexer on the other end for separating the integrated signal into several onesdesignedfor creating virtual fibers to carry larger data , which consists of a multiplexer on one end for combining the optical signals with different wavelengths into an integrated signal and a de - multiplexer on the other end for separating the integrated signal into several ones
to carry multiple light rays or modes at the SAME timeis designedto carry multiple light rays or modes at the SAME time
to carry multiple light rays or modes simultaneouslyis designedto carry multiple light rays or modes simultaneously
to carry multiple light rays or modes concurrentlyis designedto carry multiple light rays or modes concurrently
a second optical amplifier(passive) is composeda second optical amplifier
optical cable(passive) is composedoptical cable
cable(passive) is composedcable
the position(passive) where ... is causedthe position
bend losses even when the fiber is macroscopically kept straightcan causebend losses even when the fiber is macroscopically kept straight
private data networks(passive) led byprivate data networks
from the conversion of optical power to heatresultingfrom the conversion of optical power to heat
in four effective fiber gratingsresultingin four effective fiber gratings
to carry only a single mode of lightdesignedto carry only a single mode of light
for shorter distances and most often deployed in data centers , enterprise and local area networksis designedfor shorter distances and most often deployed in data centers , enterprise and local area networks
The signal light LS(passive) is led byThe signal light LS
from the conversion of optical power to heatresultingfrom the conversion of optical power to heat
low efficiency in optical transmissioncauseslow efficiency in optical transmission
for inspecting the end - faces of cleaved or polished optical fibers with cladding diameters between 125 and 1200 micrometerdesignedfor inspecting the end - faces of cleaved or polished optical fibers with cladding diameters between 125 and 1200 micrometer
to carry multiple light rays or modes simultaneouslydesignedto carry multiple light rays or modes simultaneously
to carry multiple light raysdesignedto carry multiple light rays
in distortion of the signalresultsin distortion of the signal
for digital transmissiondesignedfor digital transmission
the uncertainty(passive) caused bythe uncertainty
of glasscomposedof glass
of fiber optic passive componentscomposedof fiber optic passive components
of a plastic corecomposedof a plastic core
of a plastic core andcomposedof a plastic core and
of glass systems in low gravitycomposedof glass systems in low gravity
to be installed to the homedesignedto be installed to the home
the standard for bend performance while remaining compliant to the most stringent ITU - T Recommendations G.652.D and G.657setsthe standard for bend performance while remaining compliant to the most stringent ITU - T Recommendations G.652.D and G.657
compact structurespecially designedcompact structure
Kurage(passive) is composedKurage