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FIBRE - GENERAL RULES

Testing / certification

Calrec strongly recommends that all fibres
are properly tested or certified prior to on
site commissioning of the system.

A certain amount of signal loss occurs
over the length of a fibre path. If the total
loss of a path exceeds the optical power
budget of the SFPs in use, the system will
be unreliable.

Areas of loss

Signal loss occurs in various areas. Splice
loss occurs in terminations - at the point
where the fibre meets the connector.
Typically splice loss should be <0.3dB per
termination. Poor termination results in
higher loss.

Connector loss occurs at the point where
the connector meets the SFP / optical
transceiver, or another connector, such
as extension interconnects or patch-
points. Connector loss should typically be
<0.5dB per interconnect. Dust or other
contamination between interconnects
and scratches on the end surface contact
point of the fibre will substantially increase
the amount of loss. As such, dust
covers should always be fitted to optical
transceivers such as SFPs when no fibre
is connected and to fibre connectors that
are not landed.

As well as splice and connector loss, the
fibre itself has inherent loss over distance,
typically fibre loss will vary from 3.5dB per
Km for multimode down to 0.4dB per Km
for singlemode. Poor installation practise
and lack of care can damage the fibre and
result in substantially increased losses.

Fibre handling practise

It is important to follow the fibre
manufacturer's guidelines when handling
fibre and installing fibre runs. Some of
the main points of concern are:

• Minimum bend radii - fibre should not

be bent through too tight an angle.
Tight angles can cause significant
losses and permanent damage to
the fibre. Fibres may pass initial
installation testing but can fail at a later
date due to stresses on the core of the
fibre caused by tight bends.

• Twists, snags and kinks - Twists in fibre

runs add stresses to the core which
can cause damage over time. Avoid
snagging on other cables or conduit
which will cause excessive tensions
when pulling and can cause kinks and
excessive bends in the fibre. When
routing through angled conduit, provide
enough clearance around corners to
avoid the fibres being pulled sharply
around the inside of the angle.

• Pulling - observe the manufacturers

maximum pulling tension specification.
Use pulling tools and lubrication
where appropriate. Never pull on the
connector.

• Strain relief - fibres should be

adequately strain relieved to prevent
tension on terminations, however use
of plastic cable ties can crush the
internal construction of the cable.
Hook-and-loop 'Velcro' straps are
harder to over-tighten, offer more
gentle support and a greater surface
area to dissipate the pressure.

• Crushing - never place heavy items on

top of unprotected fibre.

Ruggedised fibre

For temporary / re-usable fibre runs , or
runs unprotected by conduit, fibre that
is likely to be exposed to the elements,
snagging or to being stood on, should
always be of a ruggedised / armoured
type to protect the internal construction of
the core.

WARNING

Never look into the end of an optical
transceiver or fibre when in use. Laser
radiation can be harmful to the human
eye and should be avoided.

Remember that when disconnecting
a fibre, the transmitting device at the
other end may still be active.

Cleaning and preventative
maintenance

Contamination of transceiver and fibre
mating contact points causes signal loss
and can cause permanent damage by
scratching.

Dust covers should be fitted to all fibre
connectors and SFP optical transceivers
when they are not mated. It is also
important to ensure that dust covers
themselves are kept clean.

When handling fibres without dust
covers, do not allow the ends to come
into contact with any surface, including
fingers.

Specialist materials should be used for
the cleaning of mating contact points to
avoid further contamination or scratching.
The following items are low cost and
readily available from camera shops and
laboratory suppliers:

• Canned compressed air - it is

important to use specialist filtered,
clean, dry air, free of contaminants and
moisture.

• Isopropyl alcohol. Use with cotton

swabs or lint-free wipes to ensure no
residue is left.

• Lint free wipes / long fibre, low ash

lens paper - needs to be free from
chemical additives. Ensure wipes
and swabs are stored in a clean
environment and are not reused.