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Home / Technical Articles / Switching Impulse Test of the Transformer

The purpose of switching impulse test

The switching impulse test is applied to confirm the withstand of the transformer’s insulation against excessive voltages occurring during switching. During the switching impulse voltage test, the insulation between windings and between winding and earth and withstand between different terminals is checked.

Switching Impulse Test of the Transformer
Switching Impulse Test of the Transformer (on photo Mississippi State University High Voltage Laboratory as University Research Center)

The purpose of the switching impulse test as the special test is to secure that the insulations between windings, between windings and earth, between line terminals and earth, and between different terminals withstand the switching overvoltages, which may occur in service.

The switching impulse voltage is generated in conventional impulse voltage generators at the laboratories.

The polarity of the voltage is negative and the voltage waveform should normally be T1/ Td/ T2 20/200/500 μS (figure 2) according to IEC 60076-3.

Due to over-saturation of the core during the switching impulse test, a few low amplitudes, reverse polarity (e.g. positive) impulses are applied after each test impulse in order to reset the transformer core to its starting condition (demagnetized). In this way, the next impulse voltage waveform is applied. The tap position of the transformer during the test is determined according to test conditions.

The on-off impulse voltages are applied to each high voltage terminal sequentially.

Switching on-off impulse test connection diagram
Figure 1 – Switching on-off impulse test connection diagram

Meanwhile, the neutral terminal is earthed. The windings which are not under test are left open (earthed at one point). This connection is similar to the induced voltage test connection. The voltage distribution on the winding is linear like the induced voltage test and the voltage amplitudes at the un-impulsed windings are induced according to the turn ratio.

Meanwhile, necessary arrangements should be made since the voltage between phases will be 1,5 times the phase-neutral voltage.

The test circuit connections of three-phase transformers depend on; structure of the core (three or five-legged), the voltage level between phases, and the open or closed state of the delta winding (if any). At first, a voltage with a 50 % decreased value is used at the tests, then impulse voltages at full values and at numbers given in standards are used. The peak value of the voltage is measured.

The change of the voltage waveform and winding current are measured with a special measuring instrument and recorded. The negativities in the transformer during the test are determined by comparing the voltage and current oscillograms.

Switching impulse voltage waveform
Figure 2 – Switching impulse voltage waveform

The sudden collapses of the voltage (surges) and abnormal sounds show the deformation of the insulation in the transformer. The deformation of the voltage waveform and increase in noise due to magnetic saturation of the core should not be considered as a fault.

The test voltage values, impulse shapes, and a number of impulses at different voltage levels must be stated in the report.

Switching Impulse Voltage Waveform :

Front : T1 ≥100 µS = 1,67 T
90% value : Td ≥ 200 µS
Time for cutting the axis: T2 ≥ 500 µS

Resource: Transformer tests – BALIKESİR ELEKTROMEKANİK SANAYİTESİSLERİA.Ş.

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Edvard Csanyi

Electrical engineer, programmer and founder of EEP. Highly specialized for design of LV/MV switchgears and LV high power busbar trunking (<6300A) in power substations, commercial buildings and industry facilities. Professional in AutoCAD programming.

3 Comments


  1. ramadan barrani
    Nov 17, 2018

    thank you very much . it was clear


  2. Eric Tan
    Aug 27, 2014

    Hi Sir,

    Currently,I have 1 pcs of Impluse Transformer that need your help to cross equipvelent.Pls kindly advise if your e mail address.


    • Dr Aladar Kohalmi
      Mar 25, 2016

      Keves Csanyi kollega !

      Ha a masik ket tekercset rovidre zarja es a transformer 3 oszlopos a merendo tekercs impedanciaja
      alacsony lesz,, rovid” tail time ”
      Kulonben is ” switching surge ” a tekercsek egymastol valo szigetelesenek ellenorzesere van,
      nem pedig a menetek kozotti szigetelest vizsgalni.
      Hivjon telefonon 201 748 7731

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