SU1171725A1 - Method of measuring error of voltage scale converter - Google Patents

Abstract

METHOD OF MEASURING THE ERROR OF THE SCALE VOLUME CONVERTERS The developers are the developers who are the developers who are the players who are the players who are the developers who are the players who are the only ones who are the main components of the transformer that are being transformed are equal to twice the value of the primary voltage for the certified transformers. converter, about tl and h ac g, u i and so that, in order to improve the accuracy of Measurement, 011eration (auxiliary converter calibration f and the operation of comparing the secondary voltages of the certified and tested converters are carried out at constant leakage points between the elements of the auxiliary scale converter and change the polarity of its output voltage.

Description

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 The invention relates to a measuring technique and can be used in the verification of metrological certification and experimental studies of large-scale converters such as high voltage transformer dividers.

The purpose of the invention is to increase the accuracy of measuring the error of a large-scale voltage converter.

The drawing shows a device that implements a method for determining the error of a large-scale voltage converter.

The device contains a voltage regulator 1, the two inputs of which are connected to the alternating voltage supply network 2 and to the two inputs of the additional voltage regulator 3. The outputs of the voltage regulator 1 are connected to the primary winding of the upstream transformer 4, the first output of the secondary winding of which is connected to the first output of the additional voltage regulator 3, the second output of which is connected to the common bus. The second output of the output winding of the downstream transformer 4 is connected to the first output of the primary winding of the test transformer 5, the first input of the switch 6, the second input of which is connected to the common bus, and the third (switchable) input is connected to the first output of the primary winding of the auxiliary transformer 7, the second output of which connected to the midpoint of the output winding of the auxiliary transformer 4 and to the first output of the primary winding of the installed transformer 8, the second output of which is the primary winding not with a common bus. The first output of the secondary winding of the certified transformer 8 is connected to the first inputs of the devices 9 and 10 compared, and the second output of the secondary winding is connected to the third inputs of the comparison devices 9 and 10, to the common busbar and to the first output of the secondary winding of the tested transformer 5, the second output of the secondary winding which is connected to the second input of the device 10 comparison. The first output of the secondary winding of the auxiliary transformer 7 is connected to the third (switching) input of the first contact group of the switch 11, and the second output to the third (switching) input of the second group 252

the contact terminals of the switch 11 .. The first input of the first group of contacts and the second input of the second group of contacts of the switch 11 are interconnected and connected to the common bus. The second input of the first contact group and the first input of the second contact group are interconnected and connected to the second input of the comparison instrument 9. Parallel to the terminals of the secondary winding of the certified converter 8, a voltmeter 12 is turned on, and parallel to the terminals of the secondary windings of the tested transformer 5 is a load 13.

The device works as follows.

In the initial position, the first output of the primary winding of the auxiliary transformer 7 is connected to ground potential (common busbar) using switch 6, and the voltage regulator 1 sets the half voltage (reference) U / 2 on the output of the secondary point of the secondary winding of the step-up transformer 4, which is monitored by a voltmeter 12 using a certified transformer 8. Comparison device 9 performs calibration, balancing the secondary voltages of the auxiliary and certified measuring transformers. Then, the primary winding of the auxiliary transformer is switched to differential voltage by means of switches 6 and 11, the first output of the primary winding of the auxiliary transformer 7 is switched to the primary (total) voltage of the transformer under test 5 and simultaneously change the polarity of its input voltage. In this position, the differential and reference voltages are identified, as a result of which the second terminal of the secondary winding of the step-down transformer 4 is set strictly doubled with respect to the midpoint of the same winding-voltage, while adjusting the regulators 1 and 3, the previous readings are repeated a voltmeter 12 and a reference device 9. After the identification has been performed using the comparison instrument 10, the output voltages of the test and certified transformers are compared. The measured error of the voltage of the tested transformer is determined by the expression., T, iro + 7 where is the real value of the error of the voltage of the certified transformer, 1 "P is the instrument reading 10 compared to. V-T7t-+1 at nominal values of the scale factors of the certified and tested converters 54 The angular error of the test transformer is determined similarly by the formula. Using the method of measuring the error of the scale voltage converter allows you to create a system of metrological assurance of development, production and operation large-scale voltage transformers of class 220 kV at a new, higher level of accuracy, ensure the possibility of introduction into electric networks x 220 kV and test laboratories x measuring instruments of accuracy classes O, I, 0,2 instead of O, 5.

Claims (1)

METHOD FOR MEASURING THE ERROR OF A SCALE VOLTAGE CONVERTER 'VOLTAGE., Which consists in calibrating an auxiliary scale converter with a certified converter, with which the primary voltage of the tested converter is set equal to twice the value of the primary voltage of the certified converter, the secondary voltages of the specified converters are compared, and the secondary voltage the fact that, in order to improve the accuracy of measurement, The calibration of the auxiliary converter and the operation of comparing the secondary voltages of the certified and tested converters are carried out at constant leakage points between the elements of the auxiliary scale converter and the polarity of its output voltage is changed. 1 1171725