Where Used
Capacitance occurs in transformers due to the physical proximity of, and electrostatic coupling between, different turns of wire. In general, the capacitance is distributed between the different layers within a winding, and between the outside layer of one winding and the inside layer of the next.
Although the capacitance is distributed, it is usually represented by a simple equivalent circuit showing a single capacitance from one winding to the next.
Inter-winding capacitance may be of interest in transformers used in audio, medical and instrumentation applications, where isolation between primary and secondary windings is important. It can also play an important part in the circuit operation of switch-mode transformers where, for example, too large a capacitance may give rise to a large amount of noise at the switching frequency being coupled into sensitive circuits connected to the secondary windings.
Measurement Conditions
To measure capacitance, the tester applies an ac voltage between the windings to be tested, usually with all taps on each winding shorted together. It then measures the voltage between the windings, and the resulting current using harmonic analysis. Dividing the voltage by the current gives the inter-winding impedance, from which the capacitance may be calculated.
The test voltage can be in the range of 1mV to 5V at a frequency of 20Hz to 1MHz.
The table below gives the recommended test conditions for different values of capacitance:
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