FUSES    181


































                            Figure 8.4. Protection of an induction motor and its feeder cable.


           about 1200 amps. A 125 amp fuse would reduce this to 1000 amps. Below these fault currents it
           is necessary to use other additional protection devices e.g. inverse-time thermal image relay, which
           is the standard practice. The relay curve will need to intersect the fuse curve before the cable is
           damaged for fault currents within a certain range. To allow the relay to have good coverage it is
           advisable to choose a smaller fuse and a larger cable. The recommended choice is a 125 amp fuse
           and a 70 mm sq cable. The fuse gives good protection in this choice for all fault currents above
           about 650 amps, which is twice the motor starting current. The 125 amp fuse also gives improved
           cut-off or current limiting performance than the 160 amp fuse.
           Step 7. Check the motor starting current versus time characteristic. Assume the starting current to be
           constant throughout the starting period. Insert the starting current versus time curve on the Figure 8.4.
           The curve is well clear of the fuse and the cable and gives plenty of scope for the overload relay. In
           fact the starting time could be as high as 8 or 9 seconds before coordination problems occur.


           REFERENCES

           1. A. Wright and P. G. Newbery, Electric fuses. The IEE, UK, 1997. Second edition. ISBN 0 852-96825-6
           2. Hermann W. Reichenstein, The application of low-voltage fuses. Classes and characteristics. McGraw-Hill
              Book Company, Inc.  ISBN 0 076-06577-4
           3. M. W. Earley, J. V. Sheehan and J. M. Caloggero, National electric code 1999 handbook. National Fire
              Protection Association,USA. Eighth edition. Library of Congress Card No. 89–63606 ISBN 0 877-65437-9