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Application Notes
Insulation Testing Concepts
Insulation resistance can be considered by applying Ohm's Law.
The measured resistance is determined from the applied voltage
divided by the resultant current,
There are two further important factors to be considered.
These are (i) the nature of the current through and/or over the
insulation, and (ii) the length of time for which the test voltage is
applied. These two factors are linked. The total current that flows
is made up of three separate currents:-
1.
Capacitance charging current. This current is initially high
and drops as the insulation becomes charged up to the
applied voltage.
Components of insulation test current
2.
Absorption current. This current is also initially high but
drops at a much slower rate than the charging current.
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3.
R =
V
I
As the total current depends upon the time for which the voltage
is applied, Ohm's Law theoretically applies at infinite time.
The charging current falls relatively rapidly as the equipment
under test becomes charged up. The actual length of time
depends upon the size and capacitance of the item under test.
Larger items with more capacitance will take longer e.g. long
supply cables. The absorption current decreases relatively
slowly compared with the charging current. In essence it
depends upon the nature of the insulation material.
The conduction or Leakage current builds up quickly to a steady
value and then remains constant for a particular applied voltage
under stable conditions. It is this current that is affected by
moisture, dirt etc. and the degree to which it flows bears a direct
relation to the quality of the insulation, and consequently to the
value of the insulation resistance measured. An increase in the
leakage current is a pointer to possible future problems.
Conduction or Leakage current.This is a small steady
current that can be sub-divided into two:-
(a) A current flowing along conduction paths through the
insulation material.
(b) A current flowing along conduction paths over the
surface of the insulation material.
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