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Protection
of cables
Low voltage fuselinks with standardised gG characteristics
are used to protect cables. The rules for the selection and overcurrent
protection of cables have been drawn up and included in national
or international wiring rules or regulations. IEC Publication 60364
deals with Electrical Installations in Buildings.
In these regulations, the term "overcurrent" covers both
short circuit currents and overloads, an overload being defined
as an overcurrent which flows in a circuit which is perfectly sound
electrically. Clearly an overload can occur, for example, if a motor
is stalled or caused to run slowly because of the torque required
of it.
The first important factor which must be considered is the current
carrying capacity of the cables to be protected. This is clearly
dependent on the conductor insulation materials dimensions. In addition,
it is affected by the ambient temperature of the environment in
which the cables will operate and on the installation arrangements,
including the spacing and adequacy of air circulation. The current
carrying capacities of cables under a range of operating conditions
have been determined and they are tabulated in the wiring regulations
referred to above.
To avoid damage, it is essential that the maximum sustained current
(IB) carried by a cable should be less than or equal to its current
carrying capacity (IZ).
To allow the maximum sustained current to flow, the fuse must have
an equal or higher rated current. In and to provide adequate protection
the fuse rating should not exceed the current carrying capacity
of the cable.
A cable can carry currents above its current carrying capacity Iz
for limited periods. The regulations which are intended to ensure
that the life of the insulation is not significantly shortened,
specify that the minimum operating current of the protective devices
should be equal to or less than 1.45 times the current carrying
capacity of the cable (i.e. 1.45 Iz).
In order to verify that gG fuselinks are capable of protecting cables
against overload, a conventional cable overload protection test
has been introduced into the fuse standard IEC 60269-1.
When the fuselinks are selected on the above basis,
the shape of the gG time current characteristics required in IEC
60269-1 ensures that the cables are adequately protected at higher
overcurrents.
In those applications where the low voltage fuselinks are to provide
back up or short circuit protection to the cables, then co-ordination
must be ensured by providing fuselinks with let through I2t values
lower than those which can be withstood by the cables. For fault
durations of 5 s or less the I2t withstand of cables may be determined
from the expression:
I2t = K2 a2
In which a is the cross sectional area of the cable conductor in
square millimetres and K is a factor which depends on the conductor
material and the limiting temperature which can be withstood by
the insulation. Values of K for various conductor and insulator
combinations are given in the regulations. The values range from
76 for aluminium conductors insulated with PVC material to 143 for
copper conductors with 900C thermosetting insulation.
Co-ordination is normally checked using the fuselink I2t value associated
with operation in 5 s.
It will be noted that the I2t withstand of the cable is not affected
by the duration of the short circuit. That of the fuselink does
increase with operating time however, and therefore correct operation
can be assured by checking that the fuselink I2t value associated
with interruption in 5 s is lower than the cable withstand value.
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