Fiber Cladding
The cladding is the layer of dielectric
material that immediately surrounds the core of an optical fiber and
completes the composite structure that is fundamental to the fiber’s
ability to guide light. The cladding of telecommunications grade
optical fiber is also made from silica glass, and is as critical in
achieving the desired optical performance properties as the core
itself.
For optical fiber to work, the core
must have a higher index of refraction than the cladding or the light
will refract out of the fiber and be lost. Initially multiple
cladding diameters were available, but the industry swiftly arrived
at a consensus standard cladding diameter of 125 μm, because it was
recognized that a common size was needed for intermateability.
A cladding diameter of 125 μm is still
the most common, although other fiber core and cladding size
combinations exist for other applications. Because of their similar
physical properties it is possible, and in fact highly desirable, to
manufacture the core and cladding as a single piece of glass which
cannot be physically separated into the two separate components.
It is the refractive index
characteristic of the composite core-clad structure that guide the
light as it travels down the fiber. The specific materials, design,
and construction of these types of optical fibers make them ideally
suited for use in transmitting large amounts of data over the
considerable distances seen in today’s modern telecommunications
systems.
Fiber Coating
The third section of an optical fiber
is the outer protective coating. The typical diameter of an uncolored
coated fiber is 245 μm, but, as with the core and cladding, other
sizes are available for certain applications.
Coloring fibers for identification
increases the final diameter to around 255 μm. The protective
coating typically consists of two layers of an ultraviolet (UV) light
cured acrylate that is applied during the fiber draw process, by the
fiber manufacturer.
The inner coating layer is softer to
cushion the fiber from stresses that could degrade its performance,
while the outer layer is made much harder to improve the fiber’s
mechanical robustness. This composite coating provides the primary
line of physical and environmental protection for the fiber.
It protects the fiber surface to
preserve the inherent strength of the glass, protects the fiber from
bending effects, and simplifies fiber handling. The colored ink layer
has properties similar to the outer coating, and is thin enough that
its presence does not significantly affect the fiber’s mechanical
or optical properties.
Great info, thanks for sharing it.
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