R. Malewski scite author profile

The transfer function of a transformer winding is deconvoluted in the frequency domain from the digitally recorded neutral current and high voltage applied during impulse tests. The integrity of the winding insulation is determined by comparing the transfer function obtained at full (BIL) and reduced test voltage.Differences between the transfer function plots reveal local breakdowns in the winding that can be dissociated from partial discharges. Thus the method permits unambiguous acceptance or rejection of the transformer and, since the transfer function is theoretically immune to changes in the applied impulse, also allows evaluation o f the chopped-impulse test.Some 100 windings of large HV power transformers have been tested so far using the transfer function method, which on several occasions has revealed transformer faults as well as test set-up problems that would have been missed or misinterpreted by the conventional technique.

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Measurement of switching transients in 735 kV substations and assessment of their severity for transformer insulation

Malewski

Douville

Lavallee

1988

IEEE Trans. Power Delivery

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Optical methods of electrical measurement at high voltage levels

Hebner

Malewski

Cassidy³

1977

Proc. IEEE

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Qualifying an impulse digitizer for measurements in HV impulse tests

McComb

Kuffel

Malewski

et al. 1990

IEEE Trans. Power Delivery

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R. Malewski

Corona characteristics of conductor bundles under impulse voltages

Impulse testing of power transformers using the transfer function method

Measurement of switching transients in 735 kV substations and assessment of their severity for transformer insulation

Optical methods of electrical measurement at high voltage levels

Qualifying an impulse digitizer for measurements in HV impulse tests

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