RU1780024C - Apparatus for measuring corona discharge losses - Google Patents

Abstract

The invention can be used to measure power losses per crown on overhead power lines. The device contains matching transformers 1.12, rectifier 2.7, a converter 3 of the current into optical radiation, a receiver 4 of optical radiation, a fiber 5, an amplifier 6, capacitors 8-10, an inductance 11, a voltage transformer 13, a power meter 14, resistors 15.16, current transformer 17, terminals 19.20 for connection to line 18. In the absence of a corona, the output voltages of the bridge rectifiers 2.7 are equal regardless of the magnitude of the load current, if there is a corona, the output voltage of the output of the microp2 is greater than output voltage rectifier 7, through converter 3 leaks current proportional to the current of the corona. Since the device does not respond to changes in the load current, it can be used to measure power losses per corona in both experimental and current power lines. 1 ill. 18. W / w • 17h ^ VJ00 oy 1 ^

Description

The invention relates to energy and can be used to measure power losses per crown on experimental and existing overhead power lines, -,

A device for measuring power losses per crown in a loaded high-voltage power line 1,

The disadvantage of this device is the impossibility of measuring the power loss per crown in a line in uehoM, since it responds to corona losses occurring only in the portion of the line located above the antenna of the device.

Closest to the technical nature of the invention is a device for measuring power loss on the crown 2, comprising a matching transformer, a current to optical converter. radiation, optical radiation receiver, bridge rectifiers, capacitors.

This device also does not allow measuring the power loss per corona on active lines, since it perceives the change in the load current as a change in corona power loss.

The aim of the invention is to expand the scope of the device for measuring power losses per crown.

The goal is achieved in that in a device containing a first matching transformer, the secondary winding of which is connected to the AC inputs of the first bridge rectifier, a current to optical radiation converter optically connected to the optical radiation receiver, the output of which is connected to the amplifier input, a second bridge rectifier , the positive pole of which is connected to the same pole of the first bridge rectifier, the first, second and third capacitors, an inductor is inserted, the second co a transformer, a voltage transformer, a wattmeter, a first and second resistor, a current transformer whose primary winding is connected to the first terminals for connection to a controlled power line, and a circuit consisting of a series of connected first capacitor and primary winding of the first is connected to the secondary winding a matching transformer and a primary winding of a first matching transformer, and a circuit consisting of series-connected inductors and a primary winding torogo .transformatora matching, the primary winding of the transformer voltage is connected to the second terminals for connection to a controlled power line, and secondary winding is connected to a first input of the power meter, the second input of which is connected to the output of the amplifier, the first

and the second terminals of the current converter into optical radiation are connected, respectively, with the negative poles of the first and second bridge rectifiers, the secondary winding of the second matching

0 of the transformer is connected to the AC inputs of the second bridge rectifier, between the positive and negative poles of which the third capacitor and the second resistor are connected in parallel, between the positive and negative poles of the first bridge rectifier the first resistor and the second capacitor are connected in parallel,

The drawing shows a diagram of the proposed device.

The device comprises a first matching transformer 1, a first bridge rectifier 2, a current to optical radiation converter 3, an optical-5 radiation receiver 4, a fiber 5, an amplifier b, a second bridge rectifier 7, a first, second and third capacitors 8, 9 and 10, inductance coils J / l, second matching transformer 12, transformer 13

0 voltage, wattmeter 14, first and second resistors 15 and 16, current transformer 17, first and second terminals 19 and 20 for connection to line 18.

The nominal value 11 of the capacitance of the first capacitor 8 and the inductance coil 11 are selected on condition that their resistances Xc and Xtoku of industrial frequency are equal. The transformation coefficients of the first and

0 of the second matching transformers 1 and 12, the capacitance of the second and third capacitors 9 and 10, the resistance of the first and second resistors 15 and 16,

, The primary winding of the transformer 17

5 current is connected to the first terminals 19 for connection to a controlled transmission line 18, and a circuit consisting of series-connected in series is connected to its secondary winding

0 of the first capacitor 8 and the primary winding of the first matching transformer I, and a circuit consisting of serially connected inductors 11 and the primary winding of the second matching

5 transformers 12, The secondary windings of the first and second matching transformers are connected to the AC inputs of the first and second bridge rectifiers 2 and 7, to the output, that is, between the positive and negative poles of the first bridge rectifier 2, the first resistor 15 is connected in parallel a second capacitor 9, and a second resistor 16 and a third capacitor 10 are connected in parallel to the output of the second bridge rectifier 7.

The first and second terminals of the current to optical radiation converter 3 are connected, respectively, to the negative poles of the first and second bridge rectifiers 2 and 7, The current to optical radiation converter 3 is optically connected to the optical radiation receiver 4 by the optical fiber 5, the output of which is connected to the input amplifier 6.

The primary winding of the voltage transformer 13 is connected to the second terminals 20 for connecting to a controlled power line, and the secondary winding is connected to the first input of the wattmeter 14, the second input of which is connected to the output of the amplifier 6.

The device operates as follows. In the absence of a corona, the output voltages of the first and second MOCTOSbix rectifiers 2.7 are equal, therefore, the device wattmeter 14 shows the absence of corona power loss in the line. If there is a corona, the output voltage of the second bridge rectifier 7. In this case, a current proportional to the corona current flows through the current converter 3, which is converted into optical radiation and transmitted to the optical radiation receiver 4. The output signal of the optical radiation receiver 4, after amplification, is supplied to the second input of the power meter 14, the first input of which is supplied with the phase voltage of the monitored line 18 through the voltage transformer 13. In this case, the wattmeter 14 shows the magnitude of the power loss per crown occurring in the line.

Claims (1)

SUMMARY OF THE INVENTION A device for measuring power loss per crown, comprising a first matching transformer, a secondary winding which is connected to the AC inputs of the first bridge rectifier, a current to optical radiation converter optically connected to the optical radiation receiver, the output of which is connected to the amplifier input, a second bridge rectifier, the positive pole of which is connected to the same pole of the first bridge rectifier, the first, the second and third capacitors, characterized in that, in order to expand the scope of application, an inductor, a second matching transformer, a voltage transformer, a wattmeter, a first and second resistor, a current transformer, the primary winding of which is connected to the first terminals for connecting to controlled transmission line, and to the secondary winding is connected in parallel a circuit consisting of a series-connected first capacitor and a primary winding of the first matching transformer, and a circuit Consisting of a series connected inductor and primary obmotkivtorogosoglasuyuschego transformer whose primary voltage transformer connected to the second terminals for connection to controlled power line, and the secondary winding is connected to the first input of the wattmeter, the second input of which is connected to the output of the amplifier, the first and second terminals of the current to optical converter radiation is connected respectively to the negative poles of the first and second bridge rectifiers, the secondary winding of the second matching transformer is connected to the AC inputs of the second bridge rectifier, between the positive and negative poles of which a third capacitor and a second resistor are connected in parallel, between the positive and negative poles The first bridge rectifier is connected in parallel with the first resistor and the second capacitor.