# Megger – Fault Finding Solutions Guide

## Good Cable Insulation //

When voltage is impressed across any insulation system, some current leaks into, through, and around the insulation. When testing with DC high voltage, capacitive charging current, insulation absorption current, insulation leakage current, and by-pass current are all present to some degree.

For the purposes of this document on cable fault locating, only leakage current through the insulation will be considered. For shielded cable, insulation is used to limit current leakage between the phase conductor and ground or between two conductors of differing potential.

As long as the leakage current does not exceed a specific design limit, the cable is judged good and is able to deliver electrical energy to a load efficiently.

Cable insulation may be considered good when leakage current is negligible but since there is no perfect insulator even good insulation allows some small amount of leakage current measured in microamperes. See Figure 1.

The electrical equivalent circuit of a good run of cable is shown in Figure 2. If the insulation were perfect, the parallel resistance RP would not exist and the insulation would appear as strictly capacitance.

Since no insulation is perfect, the parallel or insulation resistance exists. This is the resistance measured during a test using a Megger® Insulation Tester. Current flowing through this resistance is measured when performing a dc hipot test as shown in Figure 1.

The combined inductance (L), series resistance (RS), capacitance (C) and parallel resistance (RP) as shown in Figure 2 is defined as the characteristic impedance (Z0) of the cable.

When the magnitude of the leakage current exceeds the design limit, the cable will no longer deliver energy efficiently

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1. inderpreet kaur
Feb 19, 2016

sir,

2. LAKHAN
Jun 03, 2015

Good work

3. EB1000
Jun 04, 2013

Very good article. As for the cable model, I must say that I’ve never seen this kind of cable equivalent circuit. Aren’t cables supposed to be symmetrical reciprocal systems? Input impedance should be the same from either end. Cable model is usually a Pi network consisting of half the values of both capacitance and parallel resistance on each end, plus a series resistance and inductance in the middle. The model shown here looks unsymmetrical. I think both series resistance and inductance should be added to both sides.

4. salariah
Feb 28, 2013

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Nov 06, 2012

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7. revannavar
Jul 11, 2012

Thanks for articles…

• Edvard
Jul 11, 2012

You’re welcome!