Applied Voltage Test (AV) for Power Transformers: IEC 60076-3 Procedure, Criteria, and Purpose

The Applied Voltage Test (AV) is a fundamental dielectric test performed on power transformers to verify the integrity of insulation between windings and earth. Unlike impulse tests that simulate lightning or switching surges, the Applied Voltage Test checks the transformer’s ability to withstand power-frequency overvoltages under controlled conditions.

Defined in IEC 60076-3, the Applied Voltage Test is a routine test for all power transformers and is essential for confirming that the transformer insulation is free from major defects before it is energized in service.

This article explains the purpose, test procedure, test voltage selection, acceptance criteria, and engineering significance of the Applied Voltage Test for engineers, inspectors, and students.

What Is the Applied Voltage Test (AV)?

The Applied Voltage Test is a power-frequency dielectric test in which a high AC voltage is applied between a transformer winding and earth (tank and core), while all other windings are grounded.

The test verifies the insulation system’s ability to withstand:

earth faults
temporary overvoltages
system imbalance conditions

In IEC terminology, the test is sometimes called:

Applied Voltage Withstand Test
AC Withstand Test
Line Terminal AC Test (LTAC) in certain configurations

Purpose of the Applied Voltage Test

The main purpose of the Applied Voltage Test is to confirm the dielectric strength of the main insulation to earth.

Specifically, the test verifies:

winding-to-core insulation
winding-to-tank insulation
insulation of leads and connections
clearances in oil and solid insulation

IEC 60076-3 includes this test to detect gross insulation defects such as:

damaged paper insulation
incorrect clearances
contamination in oil
assembly errors
moisture-related weaknesses

Unlike impulse tests, the Applied Voltage Test stresses the insulation uniformly and continuously for a defined time.

When Is the Applied Voltage Test Required?

According to IEC 60076-3, the Applied Voltage Test is:

A routine test for all power transformers, regardless of voltage class
Performed on every manufactured unit
Conducted after assembly and before delivery

There are no exemptions based on voltage level—distribution, medium-voltage, and extra-high-voltage transformers must all pass the Applied Voltage Test.

Applied Voltage Test vs Induced Voltage Test

It is important not to confuse the Applied Voltage Test with the Induced Voltage Test:

Test	Main Purpose	Stresses
Applied Voltage Test (AV)	Insulation to earth	Winding-to-earth
Induced Voltage Test (IV)	Inter-turn insulation	Turn-to-turn, phase-to-phase

Both tests are mandatory and complement each other.

Test Setup for the Applied Voltage Test

The Applied Voltage Test is performed using the following configuration:

The winding under test is energized with AC voltage
All other windings are solidly grounded
The transformer tank and core are grounded
The test voltage is applied between the winding and earth

Only one winding is tested at a time, unless otherwise agreed.

Applied Voltage Test Voltage Levels

IEC 60076-3 specifies the required test voltages in its insulation coordination table. The Applied Voltage Test voltage depends on the Highest Voltage for Equipment (Um) of the winding.

Examples:

Um = 36 kV → Applied voltage = 70 kV
Um = 72.5 kV → Applied voltage = 140 kV
Um = 145 kV → Applied voltage = 275 kV

Important rule

The applied test voltage must not be lower than the minimum value specified by IEC.

The voltage is measured as r.m.s. value and applied at rated frequency (50 or 60 Hz).

Test Procedure (Step by Step)

The Applied Voltage Test follows a clearly defined sequence:

1. Test Preparation

Verify grounding of tank, core, and non-tested windings
Check oil level and temperature
Ensure measuring instruments are calibrated

2. Voltage Application

Increase the AC voltage smoothly from zero
Reach the full test voltage without overshoot

3. Test Duration

Maintain the test voltage for 60 seconds

During this time, the transformer must withstand the voltage without breakdown.

4. Voltage Reduction

Reduce voltage smoothly back to zero
Avoid sudden disconnection

Acceptance Criteria for the Applied Voltage Test

A transformer passes the Applied Voltage Test when:

No internal flashover occurs
No external flashover occurs
No breakdown of insulation is detected
No sudden increase in current is observed
No audible discharge or abnormal noise is present

IEC defines the test as withstand only—partial discharge measurement is not required during the standard Applied Voltage Test.

What Constitutes a Failure?

The test is considered failed if any of the following occur:

Insulation breakdown
Flashover inside the transformer
Flashover on bushings (unless explicitly allowed)
Protective device operation
Sudden collapse of voltage

If failure occurs, IEC requires:

investigation of the cause
repair of the transformer
repetition of the test

Why the Applied Voltage Test Is Technically Important

The Applied Voltage Test simulates real operating stresses such as:

earth faults
temporary system overvoltages
neutral displacement
phase imbalance

These conditions can last seconds, not microseconds, making AC withstand testing critical for long-term insulation reliability.

A transformer that passes impulse tests but fails the Applied Voltage Test is not safe for service.

Special Considerations

Line Terminal AC Test (LTAC)

In some cases, IEC allows applying the AC voltage only to the line terminal instead of the full winding. This is specified separately and must be agreed with the purchaser.

High-Voltage Transformers

For EHV transformers, clearances in air and oil must be sufficient to avoid external flashover during the test.

Bushings

Bushing insulation must be suitable for the applied voltage; otherwise, protective measures may be required.

Applied Voltage Test in Transformer Quality Control

The Applied Voltage Test is one of the final acceptance tests before shipment. It provides confidence that:

the insulation system is correctly designed
manufacturing quality is consistent
assembly defects are not present

Because it is performed at power frequency and full stress duration, it is one of the most reliable indicators of basic insulation integrity.

Simple Summary

The Applied Voltage Test (AV):

is a routine IEC 60076-3 test
verifies insulation between winding and earth
uses AC voltage at rated frequency
is applied for 60 seconds
must meet IEC minimum voltage levels
must show no breakdown or flashover

It is an essential step in ensuring transformer safety and long-term performance.

Conclusion

The Applied Voltage Test plays a critical role in transformer dielectric testing. By applying a controlled power-frequency voltage between the winding and earth, IEC 60076-3 ensures that transformers can withstand real system overvoltages without insulation failure. Together with impulse and induced voltage tests, the Applied Voltage Test forms a complete dielectric verification process that protects utilities, industries, and power networks from costly transformer failures.