RU2724352C1 - Device for power transmission line damage point determination - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to the field of electrical engineering and electric power engineering and can be used for determination of damage point in electric networks 6–750 kV. Proposed device consists of two semi-assemblies each connected to appropriate end of power transmission line. At the first end of line 3 the first half-set of the device is installed to determine the point of damage 4, at the second end of line 5 second semi-set 6 is installed. Semi-set 4 consists of the following elements: unit of voltage meter and currents 7, connected by input to end of line 3; comparator unit 8, input of which is connected to output of threshold element 9; a unit for recording high-frequency signal 10, in which the first input is connected to the output of comparator unit 8, the second input is connected to the output of the voltage and current meter 7, the third input is connected to the output of the global time signal receiving unit of satellite system 11; unit for determining time mark of arrival of electromagnetic wave 12, in which input is connected to output of unit of recording HF signal 10, and output is connected through communication port with computer 13 and through first communication channel 14 is connected to similar port 15 of unit for determining time mark of arrival of electromagnetic wave of second half-set 6. Additionally, a unit of local precise time 16 signal generator can be introduced, in which the first input is connected to the output of the global precise time signal monitoring unit 17, connected by the input to the output of the global precise time signal receiving unit 11, and the second local precise time signal former input is connected directly to the output of the global precise time signal receiving unit 11. Signals of local precise time 16 via communication port are connected via second communication channel 18 with similar port 19 of signal generator of local precise time of second half-set 6. Second communication channel 18 is in form of a dedicated optic-wave line.EFFECT: high reliability of the device and wider field of use thereof.3 cl, 2 dwg

Description

The invention relates to the field of electrical engineering and the electric power industry and can be used to determine the location of damage to power lines in electric networks of 6-750 kV.

Known technical solution for determining the location of damage to the power line using the wave method and two-sided measurements [1]. It provides for the use at each end of a power line of a voltage and current meter, a trigger, a time counter connected via a pulse synchronization device through a communication channel to a time counter of the second end of the line. Using the device for synchronizing pulses provides synchronized operation of the counters at the first and second ends of the line, which fixes the fronts of electromagnetic waves at the respective ends of the line. The place of damage is calculated by summing the half length of the line and the half product of the time difference by the speed of propagation of electromagnetic waves along the line.

The disadvantage of this technical solution is the low accuracy.

The closest solution in technical essence is the device [2], which contains at each end of the line a voltage and current meter for the power line, a unit for processing measured values, a comparator, a threshold element, a timer, a unit for receiving a signal of the global exact time of the satellite system, and a communication channel with a control center , where the signals from the timers of the first and second end of the line calculate the distance to the place of damage. Using the unit for processing the measured values inside the moving time window, an alarm is determined. When it exceeds a predetermined threshold, the comparator starts a timer, which is synchronized by the signal of the global exact time of the satellite system.

The disadvantages of the device are as follows.

The moment of the beginning of the transient process is determined by the one-time process of allocating the time stamp of the arrival of the electromagnetic wave in the conditions of a moving time window, initiated by the comparator and the timer. As a result, all kinds of negative factors, including hardware noise, can have a significant impact on the start of the timer, which determines the time stamp of the arrival of an electromagnetic wave. Therefore, with a one-time procedure for allocating a time stamp, the probability of an inaccurate determination of the location of the damage is quite high.

The second drawback is that in the event of a loss of the global accurate time signal due to loss of communication with the satellite system at least at one end of the line, the results of determining the location of the damage will be knowingly unreliable. With a long absence of global accurate time signals, the device for determining the location of the damage is inoperative.

These disadvantages lead to low reliability of the device and the limited scope of its application.

The aim of the invention is to increase the reliability of the device and expand the scope of its application.

This goal is achieved by the fact that in the known device, which consists of two half-sets, each of which is connected to the corresponding end of the power line and contains a voltage and current meter unit of the power line, the input of which is connected to the end of the power line, a comparison unit, a threshold element, a reception unit global time signal from the satellite system, the first communication channel, the output of the voltage and current meter of the power line is connected to the first input of the comparison unit, the second input of the comparison unit is connected to the output of the threshold element, an RF signal recording unit, an electromagnetic wave arrival time marking unit are introduced and a fault location calculator, the first input of the RF signal recording unit is connected to the output of the voltage and current meter, the second input of the RF signal recording unit is connected to the output of the comparison unit, the third input of the RF signal recording unit is connected to the output of the global accurate time signal receiving unit of the satellite system The input of the unit for determining the time stamp of the arrival of an electromagnetic wave is connected to the output of the recording unit of the RF signal, the unit for determining the time stamp of the arrival of the electromagnetic wave through the communication port is connected to the computer and through the first communication channel is connected to the same port of the unit for determining the time stamp of the arrival of the electromagnetic wave of the second half

In addition, the task is facilitated by the fact that in each half-set an additional block of global exact time signal is inputted, a local exact time signal conditioner and a second communication channel between the first and second half-sets, the first local exact time signal conditioner input is connected to the output of the signal reception unit global exact time from the satellite system, the second input of the local exact time signal conditioner is connected to the output of the global exact time signal control unit, the output of the local exact time signal conditioner is connected to the third input of the RF signal recording unit, the local exact time signal conditioner is connected via the communication port through the second a communication channel with a similar communication port of the local exact time signal shaper of the second half-set, the input of the global exact time signal control unit is connected to the output of the global exact time signal reception unit from the satellite system.

Moreover, the second communication channel is made in the form of a dedicated fiber optic line.

Comparative - analysis of the claimed technical solution with well-known analogues and prototype, showed that the invention contains new elements and new connections, providing increased reliability of the device and the expansion of its scope. The RF signal recording unit introduced into the device and the electromagnetic wave arrival time stamp determination unit provide the opportunity to perform an in-depth analysis of the initial working oscillograms used to determine the electromagnetic wave arrival time stamp and eliminate errors that could occur during a one-time procedure for extracting the time stamp using the moving time method window.

The task is facilitated by the introduced local accurate time signal former with a second communication channel, which comes into operation in the absence of a global exact time signal of the satellite system and ensures synchronization of the recording of the RF signal at both ends of the line.

These factors lead to an increase in the reliability of the device for determining the location of damage and the expansion of its scope.

The claimed invention is a new and original technical solution, which differs significantly from the known ones, and meets the criteria of "inventive step" and "novelty."

In FIG. 1 is a structural diagram of a device for determining the location of damage with one communication channel; in FIG. 2 is a diagram of a device for determining the location of damage with two communication channels.

The circuit of FIG. 1 contains a power line 1 with a location of damage 2. At the first end of line 3, the first half-set of the device for determining the location of damage 4 is installed, at the second end of line 5, the second half-set is installed 6. Half-set 4 consists of the following elements: a voltage and current meter 7 unit connected entrance to the end of line 3; block comparison 8, the input of which is connected to the output of the threshold element 9; an RF signal recording unit 10, in which the first input is connected to the output of the comparison unit 8, the second input is connected to the output of the voltage and current meter 7, the third input is connected to the output of the global accurate time signal receiving unit of the satellite system 11; the unit for determining the time stamp of arrival of the electromagnetic wave 12, in which the input is connected to the output of the recording unit of the RF signal 10, and the output is connected through the communication port to the transmitter 13 and through the first communication channel 14 is connected to the same port 15 of the unit for determining the time stamp of the arrival of the electromagnetic wave of the second half 6.

In the circuit of FIG. 2 in the first half-set 4, the third input of the recorder of the RF signal 10 is connected to the output of the local exact time signal generator unit 16, in which the first input is connected to the output of the global exact time signal control unit 17, connected to the output of the global exact time signal reception unit 11, and the second input of the local time exact signal generator is connected directly to the output of the global exact time signal receiving unit 11. The local exact time signal generator 16 is connected via the second communication channel 18 to the same port 19 of the local local time signal generator of the second half-set 6. The second channel Communication 18 is made in the form of a dedicated optical wave line.

The device operates as follows. In normal mode, the measuring unit 7 of the first half-set 4 and a similar block of the second half-set 6 measure current voltages and currents at the corresponding ends of the line. When the measured electrical value exceeds the threshold value specified by the threshold element 9, the comparison unit 8 starts the recording unit of the RF signal with the allocation of the initial stage of development of the transient process. Treble Synchronicity the signal unit 10 of the first half-set 4 and a similar unit for recording the RF signal of the second half-set 6 is carried out using the exact time signal received from the global exact time signal receiving unit of the satellite system 11 of the first half-set and a similar block of the second half-set.

The time stamp is determined by block 12 by means of the detailed processing of the RF signal received from block 10. Time channel is exchanged between the half-sets 4 and 6, which are transmitted to the computers of both half-sets, determining the location of damage 2 on power line 1 via communication channel 14.

In the circuit of FIG. 2, it is possible to generate a local exact time signal during the absence of a satellite system signal controlled by unit 17. When a signal is received from unit 17, the former 16 transmits through the communication port, the second communication channel 18 and port 19 a command to start the local exact time former of the second half-set 6. As a result, the local accurate time signal generator of the second half-set 6 comes into operation, which is synchronized by the global exact time signal of the satellite system. During the absence of the global exact time signal in the first half-set 4, it performs the function of the leading source of local exact time, and the shaper 16 performs the function of the slave source of the local exact time signal, which is synchronized through the second communication channel 18. If the second half-set has no global exact time signal was fixed earlier than on the first half-set, the former 16 of the first half-set 4 will perform the function of the leading source of the local exact time signal. In order to minimize time delays in the second communication channel 18, it is preferable to use a dedicated fiber-optic line.

The use of functional blocks for recording the RF signal and determining the time stamp of the arrival of the electromagnetic wave makes it possible to carry out detailed processing of temporary oscillograms and thereby increase the reliability and accuracy of determining the location of damage. The use of additional units to generate a local exact time signal during the absence of a global exact time signal from a satellite system allows to increase the reliability of the device and expand its scope.

Sources of information

1. Shalyt G.M. Determination of places of damage in electrical networks. - M.: Energoatomizdat, 1982, p. 18-19.

2. RF patent No. 2632583, IPC G01R 31/08, publ. 09/21/2017, bull. No. 27 (prototype).

Claims (3)

1. Device for determining the location of damage to the power line, consisting of two half-sets, each of which is connected to the corresponding end of the power line and contains a voltage and current meter for the power line, the input of which is connected to the end of the power line, a comparison unit, a threshold element, a reception unit global time signal from the satellite system, the first communication channel, the output of the voltage and current meter of the power line is connected to the first input of the comparison unit, the second input of the comparison unit is connected to the output of the threshold element, characterized in that an RF signal recording unit, a label determination unit are introduced the time of arrival of the electromagnetic wave and the location of the fault, the first input of the RF signal recording unit is connected to the output of the voltage and current meter, the second input of the RF signal recording unit is connected to the output of the comparison unit, the third input of the RF signal recording unit is connected to the output of the global signal the time of the satellite system, the input of the unit for determining the time stamp of the arrival of the electromagnetic wave is connected to the output of the RF signal recording unit, the unit for determining the time of the arrival of the electromagnetic wave through the communication port is connected to the computer and through the first communication channel is connected to the same port of the unit for determining the time stamp of the arrival of the electromagnetic wave second half-set. 2. A device for determining the location of a damage to a power line according to claim 1, characterized in that in each half-set, a global exact time signal control unit, a local exact time signal driver and a second communication channel between the first and second half-sets, a first input of the local signal conditioner are additionally introduced the exact time is connected to the output of the global exact time signal receiving unit from the satellite system, the second input of the local exact time signal conditioner is connected to the output of the global exact time signal control unit, the output of the local exact time signal conditioner is connected to the third input of the RF signal recording unit, the local signal conditioner of the exact time through the communication port and through the second communication channel is connected to a similar communication port of the local exact time signal shaper of the second half-set, the input of the global exact time signal control unit is connected to the output of the global exact signal reception unit time from the satellite system. 3. Device for determining the location of damage to the power line according to paragraphs. 1, 2, characterized in that the second communication channel is made in the form of a dedicated fiber-optic line.

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