How significant is insulation resistance testing? Since 80% of electrical maintenance and testing involves evaluating insulation integrity, the answer is “very important.” Electrical insulation starts to age as soon as it’s made. And, aging deteriorates its performance.
Harsh installation environments, especially those with temperature extremes and/or chemical contamination, cause further deterioration. As a result, personnel safety and power reliability can suffer. Obviously, it’s important to identify this deterioration as quickly as possible so you can take the necessary corrective measures.
What is insulation resistance testing?
Basically, you’re applying a voltage (specifically a highly regulated, stabilized DC voltage) across a dielectric, measuring the amount of current flowing through that dielectric, and then calculating (using Ohm’s Law) a resistance measurement. Let’s clarify our use of the term “current.” We’re talking about leakage current. The resistance measurement is in megohms. You use this resistance measurement to evaluate insulation integrity.
Current flow through a dielectric may seem somewhat contradictory, but remember, no electrical insulation is perfect. So, some current will flow.
What’s the purpose of insulation resistance testing?
You can use it as:
A quality control measure at the time a piece of electrical equipment is produced;
An installation requirement to help ensure specifications are met and to verify proper hookup;
A periodic preventive maintenance task; and
A troubleshooting tool.
How do you perform an insulation resistance test?
Generally, you connect two leads (positive and negative) across an insulation barrier. A third lead, which connects to a guard terminal, may or may not be available with your tester. If it is, you may or may not have to use it. This guard terminal acts as a shunt to remove the connected element from the measurement. In other words, it allows you to be selective in evaluating certain specific components in a large piece of electrical equipment.
Obviously, it’s a good idea to have a basic familiarity with the item you’re testing. Basically, you should know what is supposed to be insulated from what. The equipment you’re testing will determine how you hook up your meghommeter.
After you make your connections, you apply the test voltage for 1 min. (This is a standard industry parameter that allows you to make relatively accurate comparisons of readings from past tests done by other technicians.)
During this interval, the resistance reading should drop or remain relatively steady. Larger insulation systems will show a steady decrease; smaller systems will remain steady because the capacitive and absorption currents drop to zero faster than on larger systems. After 1 min, you should read and record the resistance value.
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