AC Hipot vs. DC Hipot Test: A Detailed Comparison

This article explores the differences between AC and DC hipot tests, delving into their principles, advantages, and disadvantages. We’ll compare these essential tests used to evaluate electrical insulation.

Introduction to Hipot Testing

“Hipot,” short for High Potential, refers to a category of test equipment used to assess the integrity of electrical insulation. Unlike continuity testers, which verify a connection between two points, hipot testers perform the opposite: they verify the absence of a current path between two points. These tests are crucial for identifying insulation defects like crushes or leaks.

Image of a hipot tester

A typical Hipot tester, similar to this one, can perform both AC and DC tests.

AC Hipot Test

• Procedure: An AC hipot test applies a high-voltage AC signal, typically 1500 or 3000 volts at 60 Hz, to the insulation under test. The leakage current is carefully monitored.
• Failure Indication: If the leakage current exceeds a predefined threshold, the hipot tester indicates a failure.
• Features: Good AC hipot testers usually have adjustable ramp-up and ramp-down rates for the voltage, as well as an application time setting.

DC Hipot Test

• Procedure: A DC hipot test involves applying a high DC voltage to the insulation and measuring the resulting insulation resistance.
• Leakage Current Measurement: The leakage current is measured to determine the insulation resistance value.
• Applications: DC hipot tests are frequently used on new cables.
• Voltage Levels: The DC voltage applied in a hipot test is often higher compared to AC hipot testing.

Key Differences: AC Hipot vs. DC Hipot

Here’s a summary of the key distinctions between AC and DC hipot tests:

• Voltage Level: DC hipot tests utilize higher voltage levels than AC hipot tests.
• Voltage Type: DC hipot tests use DC voltage, while AC hipot tests use AC voltage at 50/60 Hz.
• Current Capacity: DC hipot testers generally have a much lower output current capacity compared to AC hipot testers.
• Leakage Current Accuracy: DC hipot testers provide a more accurate reading of leakage current because they measure only real current flow. AC hipot testers measure total current, which includes both real and capacitive currents, leading to less accurate leakage current measurements.
• Polarity Testing: AC hipot testers perform tests in both positive and negative voltage polarities. DC hipot testers do not perform polarity-based testing, as they charge the insulation in only one polarity.

In essence, both AC and DC hipot tests are valuable tools for ensuring the integrity of electrical insulation. The choice of which test to use depends on the specific application and the type of insulation being tested.