SU779930A1 - Method of testing current circuits of relay protection systems - Google Patents

Description

one

The invention relates to the field of electrical measurements of technology and can be used in the operation and testing of relay CIT devices. Known cnocoFi, including, the impact of a high voltage of 6 SvK from a powerful high-voltage winding of a power transformer, the low-voltage winding of which is shorted, and the measurement of the magnitude and magnitude of the currents in the secondary circuits of current transformers 1.

A disadvantage of the known method lies in the large labor costs associated with the use of a powerful high-voltage source and the laying of temporary high-power electrical circuits with a voltage higher than 1000 V.

The closest in technical terms is the method of checking the current circuits of relay protection devices, based on the effect of a three-voltage voltage of 380 V on the high-voltage winding of a power transformer, the low-voltage winding is short-circuited, and the measurement of the value and current factor in the secondary. TpnsiCtiopMi TOpOB PCT 2.

The disadvantages of this method are its low reliability and reliability.

The purpose of the invention, an increase in reliability and reliability, is achieved by the fact that, in the manner in which a three-phase voltage of 380 V is applied to a high-voltage winding of a power transformer whose low-voltage winding is shorted, the voltage and the phase of the voltage in alternately open secondary transformers are measured current.

Pa figs. Figure 1 shows a flowchart for testing current circuits of a relay protection device, for example, a differential protection relay for a two-winding power transformer, FIG. 2 is a vector diagram of measured voltages.

20

and FIG. 1 shows a power transformer 1 containing a low-voltage winding 2 and a high-voltage winding 3, a short 4, transformers

25 currents 5, 6, 7, 8, 9, 10, relays dIL (Real protection 11, 12, 13, containing the first equalization 14, 15, 16, the second equalizing 17, 18, 30 deifferential 20, 21, 22 windings, respectively, gauge 23 and clips 24 - 32.

The method is carried out in the following way.

In the low-voltage winding 2 force. The first transformer 1 is installed short. A three-phase voltage of 380 V from an external low-power source (not shown) is connected from the side of the high-voltage winding 3 of the power transformer 1 to the terminals. 24, 25, 26. The primary currents of the high-voltage winding 3 and the low-voltage winding 2 of the power transformer 1, respectively, through TpaHCffjOpMaTory of current 5, 6, 7, 8, 9, 10 are transformed into secondary currents flowing respectively in the first 14,15, 16 second currents equalizing 17 ,. 18, 19 and differential 20, 21, 22 windings of the differential protection relay 11, 12, 13i

Measurement of the magnitude and phase of the induced voltage is made by breaking the corresponding secondary circuit. For example, for the differential protection relay 11, the first equalizing winding 14, the measuring device 23 is opened, connected to the terminals 27, 29 of the differential protection relay 11 and measured with respect to the reference voltage Lfgn (A. 110 - 220 in Lazy, primary current-induced secondary the voltage and its value C. The reference voltage is connected to the terminals 30, 31, 32 of the measuring device 23. Then the first equalizing winding 14 is closed and the second equalizing winding 13 of the differential protection relay 11 is disconnected, the measuring device 23 is connected terminals 23, 29 of the differential protection relay 11 is measured relative to the reference phase of the induced voltage

the primary current is the secondary voltage; and its magnitude. After this, the second equalizing winding 17 is closed.

Similar measurements are also made on the differential protection relay 12, 13. According to the data obtained, a vector diagram of the voltages I is constructed. 2) and make a conclusion about the validity of the connection of the current circuits of the differential protection relay 11, 12, 13.

The use of a method for checking current circuits of relay protection devices provides reliable and reliable data for assessing the correctness of the connection of the tested current circuits before switching on the protected electrical equipment.

Claims (2)

1.Eb / 63 information message. Voltage test of the transformation ratio and connection circuits of current transformers and their circuits, ETPRGRES, Moscow, 1963. 2. Informative message E-10/65 Checking of current circuits of protection with a small primary current from an external source, ORTPRO BTP, Moscow, 1965.