REACTIVE POWER COMPENSATION

As is mentioned earlier, the test transformers are used for testing the insulation of various electrical equipment's. This means the load connected to these transformers is highly capacitive. Therefore, if rated voltage is available at the output terminals of the test transformer and a test piece (capacitive load) is connected across its terminals, the voltage across the load becomes higher than the rated volt-age as the load draws leading current.

Thus, it is necessary to regulate the input voltage to the test transformer so that the voltage across the load, which is variable, depending on the test specimen, remains the rated voltage.

Another possibility is that a variable inductor should be connected across the supply as shown in Fig. 2.13 so that the reactive power supplied by the load is absorbed by the inductor and thus the voltage across the test transformer is maintained within limits.

When the primary series is connected, for the same supply voltage, voltage per turn of primary becomes half its value when it is parallel connected and, therefore, the secondary voltage becomes ½ of the rated voltage and hence the curve starts at 50% of the rated voltage. The power of the voltage regulator is proportional to the supply voltage and, therefore, is represented by line  E in Fig. 2.14 and the maximum power at rated voltage is 33.3% of the maximum power requirement of the transformer.

All possible operating conditions of the test transformer lie within the triangular area enclosed by the line  A,  the abscissa and the 100% rated voltage line.

This area has been sub- divided into different parts,so that the permissible supply power (Here 33% of maximum transformer load) is never exceeded. The value of the highest voltage is always taken for the evaluation of the compensation arrangement. Since the impedance of the test transformer is usually large (about 20–25%), the range under 25% of the rated voltage is not considered.