330    HANDBOOK OF ELECTRICAL ENGINEERING

                    Very and extremely inverse relays are used in systems where the fault level downstream is low
              when compared with that available at the point of main supply, e.g. a main generator switchboard.
              They are also used where coordination with upstream or downstream fuses is necessary.
                    Extremely inverse relays have an inverse square law characteristic, which predominates at
                                                          2
              high fault currents. It therefore closely matches the I t characteristics of cables, motors, transformers,
              NERs etc.

              12.4.1.1 Comparison of inverse time curves
              Before electronic relays were developed the standard inverse characteristic was taken as the reference
              e.g. in BS142 for UK practice. A point on the characteristic was chosen for the comparison with
              others, e.g. extremely inverse. The reference point was 10 times the nominal relay current and an
              operating time of 3 seconds.

                    Most literature for modern relays, and the IEC60255, do not compare the characteristics in
              this manner. Instead they use a standardised formula for each relay,
              Inverse time
                                                    0.14
                                                             seconds
                                                     0.02

                                                  I
                                            t =
                                                        − 1
                                                  I n
              Very inverse
                                                   13.5
                                                             seconds
                                                     1.0
                                            t =

                                                  I
                                                       − 1
                                                  I n
              Extremely inverse
                                                    80
                                                            seconds
                                                     2

                                            t =
                                                  I
                                                      − 1
                                                  I n
                    Where the numerator is a constant that falls within the range of the time multiplier of the relay.
              If the numerator is ‘temporarily’ modified then the characteristics can be compared in a similar manner
              to the older method of BS142. A good pictorial comparison can be made by choosing the common
              point to be at 5 times nominal current and 5 seconds operating time. The modified numerators are
              0.1636, 20.0 and 120.0 respectively. The three characteristics are shown in Figure 12.12. It is feasible
              with modern electronic relays to use any value for the exponent in the denominator. Figure 12.13
              shows a family of curves in which intermediate values of the exponent are included, i.e. 0.5, 1.5
              and 3.0.

              12.4.2 High-Set or Instantaneous Current

              12.4.2.1 Basic considerations
              The use of high-set or instantaneous current protection for the primary winding, or the secondary
              winding, is determined by several factors, which differ for either winding. Consider the primary