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Double-End Excitation of a Single Isolated Transformer Winding: An Improved Frequency Response Analysis for Fault Detection

Saurav Pramanik, Aravind Ganesh, V S B Chaitanya Duvvury

2021IEEE Transactions on Power Delivery29 citationsDOI

Abstract

Frequency Response Analysis (FRA) is a comparison based method and is useful to identify the mechanical fault in transformer winding only when the ‘healthy’ or ‘reference’ magnitude response is available. But, in practice, ‘healthy’ response may not be always available and the subsequent FRA measurement alone also cannot detect the fault. This is one serious limitation for conventional FRA method and the desired solution is still far away. To this effect, this paper presents an innovative way of measuring the frequency responses of transformer winding with two equal and opposite polarity sinusoidal excitations from two ends. For viability test, the present work is limited to fault-detection only in a single isolated uniformly-wound transformer winding followed by verification on an actual single-phase autotransformer. The two equal and opposite polarity excitations for such winding are likely to impose a virtual ground at the centre and hence the two admittances measured from the two source-ends are likely to be identical. Two admittances also get dissimilar for a fault in transformer winding and therefore the fault could be identified simply by measuring and comparing these two responses in absence of ‘healthy’ response. Pertinent simulation and experimental results are also included in the paper.

Topics & Concepts

AutotransformerEngineeringTransformerElectrical engineeringElectromagnetic coilFrequency responseFault detection and isolationGroundLeakage inductanceElectronic engineeringDistribution transformerVoltageActuatorPower Transformer Diagnostics and InsulationHigh voltage insulation and dielectric phenomenaMagnetic Properties and Applications
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