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MEASURING TECHNIQUES Testing Earth Electrodes
Maximum
Distance to Potential
dimension
spike in metres from
in metres
centre of earth
system
5
62
10
93
20
124
For greater accuracy an average reading can be
calculated by moving the current spike, say 10 metres,
towards and then away from its first position and
making further resistance measurements. (Remember
that the Potential spike must also be moved in
accordance with the 61,8% Rule). The average of the
three readings can then be calculated.
THE SLOPE METHOD
This method is more applicable to larger earth
electrode systems or where the position of the centre of
the earthing system is not known or inaccessible (e.g.
if the system is beneath the floor of a building). The
Slope method can also be used if the area available for
siting the earth electrodes is restricted. It can be tried if
the previous methods prove unsatisfactory and
generally yields results of greater accuracy than those
methods.
The equipment is set up as shown in Fig. 11. The
remote Current spike is placed 50 metres or more from
the earth electrode system to be measured and
18
Distance to Current
spike in metres from
centre of earth
system
100
150
200
connected to the instrument's 'C2' terminal. The
Potential spike is inserted at a number of positions
consecutively, between the earth system and the
Current spike, and connected to the 'P2' terminal. The
test spikes and the earth system should all be in a
straight line.
The instrument's 'C1' and 'P1' terminals are connected
separately to some point on the earth electrode
system.
Electrode
under test
Fig. 11 Connections for the Slope method
C1
P1
P2
C2
E
ES
S
H
®
EARTH
TESTER
EARTH
TESTER
MEGGER
MEGGER
DET5/4D
DET5/4D
k
3 POLE
4 POLE
MEASURE R
E
P1
P2
C2
EC
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