Fiber Optic Splicing
Optical Fiber Splicing has two methods: mechanical or fusion... Read More
AFL FPS Fusion Protection Sleeve, 45mm, 900umAFL Global FPS-01-900-45 Heat Shrink Fusion Protection Sleeve, 45mm, for up to 900um buffered fibers...
Part: S012696
Splice Tech High Temp Series Dielectric Fusion Protection Sleeve, 40mmSplice Technologies High Temp Series Dielectric Heat Shrink Fusion Protection Sleeve with Single Gla...
Part: FSS-SHQD40
Splice Tech High Temp Fusion Protection Sleeve, 40mm, 900um, 2.3mmSplice Tech has designed a series of high-temperature splice sleeves. These products also became sui...
Part: FSS-SCH40
Splice Tech Thin Series Fusion Protection Sleeve, 40mm, 900umSplice Technologies Thin Series Heat Shrink Fusion Protection Sleeve, 40mm, for up to 900um buffered...
Part: FSS-TC40
Splice Tech High Temp Fusion Protection Sleeve, 40mm, 900um, 2.2mmSplice Technologies High Temp Series Heat Shrink Fusion Protection Sleeve, 40mm, for up to 900um buf...
Part: FSS-LCH40
Fiber Optic Splicing
Optical Fiber Splicing has two methods: mechanical or fusion. Light passing through joined fibers cannot be scattered or reflected. 1) Mechanical splicing does not require a fusion splicer, joining fibers so light can pass from one to another introducing higher reflection than fusion method. 2) Fusion splicing has longer life than mechanical by fusing the cores with less attenuation, producing transparent, non-reflective, continuous connection enabling low loss light transmission. Field installations use splicing to restore fiber optic cables when buried cable is accidentally severed.
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