RU2700294C1 - Method of determining point of damage of power transmission line and device for its implementation - Google Patents

Abstract

FIELD: electrical equipment; electric power engineering.

SUBSTANCE: invention relates to the field of electrical engineering and electric power engineering and can be used for determination of damage point of power transmission lines in electric networks 6–750 kV. Method comprises: determining a point of damage to a power transmission line, comprising recording additionally the currents and voltages measured with high time resolution, monitoring the presence of a signal of global precise time from the satellite system at each end of the line, absence of a global accurate time signal from a satellite system and in the absence of a global time signal from a satellite system on at least one end of the line, generating a local local time signal, coordinated by a signal transmitted from the end of the line, where there is a global time signal from satellite system. In each semi-set there is a unit for recording voltages and currents measured with high time resolution, global precise time signal control unit and local precise time signal generator, connected via communication port through second communication channel to similar port of local exact time signal former of second half-complete set, first input of local accurate time signal generator is connected to output of global precise time signal receiving unit and input of global precise time signal monitoring unit, second input of local accurate time signal generator is connected to output of global precise time signal monitoring unit, first input of recording unit of measured with increased time resolution of voltages and currents is connected to output of voltage and current meter unit of power transmission lines, second input of registration unit with high time resolution of voltages and currents is connected to output of comparator unit, third input of recording unit with high time resolution of voltages and currents is connected to output of local accurate time signal former, output of registration unit with increased time resolution of voltages and currents is connected to input of calculator of point of damage.

EFFECT: technical result consists in improvement of reliability of disclosed technical solutions and wider field of use thereof.

2 cl, 1 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.

A technical solution is known for determining the location of a power line damage using the wave method and two-sided measurements [1], which measure currents and voltages at each end of a power line, compare them with the corresponding static threshold values and record the moments of arrival of the front of the electromagnetic wave that occurs in the place of a short circuit and extending to the ends of the lines, by stopping the counter of synchronizing pulses transmitted through a dedicated communication channel and both sintering the synchronization of the counters (reference timing) at both ends of the power line. The damage location is calculated by summing the half length of the line and the half product of the time difference between the arrival of these fronts at the ends of the line and the speed of propagation of electromagnetic waves along the line.

The disadvantage of this method is the low accuracy.

The solution closest in technical essence is the method [2], in which currents and voltages are measured at each end of the power line, an alarm signal is extracted from the measured currents and voltages, the kurtosis coefficient of the selected alarm signal inside the sliding time window is calculated, and the calculated kurtosis coefficient is compared with the value threshold, record the moment the threshold is exceeded using a satellite navigation system. To calculate the distance to the place of damage, the difference in the times of arrival of the alarm front at the ends of the line is used.

A device for implementing the method comprises, at each end of the line, a voltage and current meter for the power line, an alarm signal extraction and kurtosis coefficient calculation unit, a comparator, a threshold element and a timer. In the device, the counting input of the timer is connected to the output of the unit receiving the synchronizing pulses of the satellite navigation system. The time of arrival of the alarm front, fixed by the timer, is transmitted to the unit of the damage location calculator, which is taken out to the control room connected by communication channels to each end of the line. The unit of the fault location calculator can be located at each end of the line, in this case, the communication channel is used to exchange data on the arrival time of the alarm front at the corresponding end of the transmission line.

The disadvantages of this technical solution are as follows.

The moment of the beginning of the transient process is determined by the one-time process of isolating the alarm signal and calculating the excess coefficient under the conditions of a moving time window, by which the comparator and the timer start are triggered. As a result, all kinds of negative factors, including hardware noises, can have a significant impact on the start of the timer, which determines the time stamp of the alarm front arrival. 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 if the global exact time signal disappears 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 deliberately unreliable. With a long absence of global accurate time signals, the device for determining the location of damage is inoperative. Thus, a device that implements the method cannot function reliably at facilities where communication with the satellite system is possible. This narrows the scope of the technical solution.

These disadvantages cause a relatively low reliability and limited scope.

The purpose of the proposed technical solution is to increase reliability and expand the scope.

This goal is achieved by the fact that in the method for determining the location of damage to the power line, which consists in the fact that currents and voltages are measured at each end of the line, compare them with the corresponding threshold levels, the distance to the place of damage is calculated by the difference in the times of arrival of the electromagnetic wave to the ends of the line , determined by the global exact time signal from the satellite system, additionally record the currents and voltages measured with a higher time resolution, control the voltage Ichiye signal global precise time from the satellite system at each end of the line, reveal no signal global precise time of the satellite system in the absence of the signal global precise time from the satellite system, at least at one end of the line, produce a signal of the local precise time, coordinated signal, transmitted from the end of the line where there is a global accurate time signal from the satellite system.

This goal is achieved by the fact that in the device for determining the location of damage to the power line, consisting of at least two half-sets, each of which is connected to the corresponding end of the power line and contains a voltage and current meter for power lines, the input of which is connected to the end of the line power transmission, a comparison unit, a threshold element, a unit for receiving a global exact time signal from a satellite system, a computer for a fault location computer connected via a communication port the first communication channel with the analogue port of the calculator of the fault location of the second half-set, the first input of the comparison unit is connected to the output of the voltage and current meter unit of the power lines, the second input of the comparison unit is connected to the output of the threshold element, an additional recording unit of voltages measured with an increased time resolution is added to each half-set and currents, the global exact time signal control unit and the local local time signal driver, connected via a communication port through a second communication channel with the same port of the local exact time signal driver, the second half-set, the first input of the local exact time signal generator is connected to the output of the global exact time signal receiving unit and the input of the global exact time signal control unit, the second input of the local exact time signal generator is connected to the output of the global signal time control unit accurate time, the first input of the registration unit measured with a higher time resolution of voltages and currents is connected to the output of the unit voltage and current lines of the power lines, the second input of the recording unit with a higher time resolution of voltages and currents is connected to the output of the comparison unit, the third input of the registration unit with a high time resolution of voltages and currents is connected to the output of the signal conditioner local local time, the output of the recording unit with a higher time the resolution of voltages and currents is connected to the input of the calculator of the place of damage.

A comparative analysis of the claimed technical solution with known analogues and prototype showed that the proposed technical solutions contain new elements and new connections, providing increased reliability and expansion of the scope.

Registration of transient voltages and currents measured with increased time resolution makes it possible to reliably analyze and more accurately determine the moments of arrival of an electromagnetic wave at the ends of the line. As a result, errors and inaccuracies that could have occurred during a one-time procedure for allocating timestamps using the sliding time window method are eliminated. Using the local accurate time signal generated during the failure of the global accurate time signal from the satellite system, reliable determination of the difference in the moments of time of arrival of the electromagnetic wave to the ends of the line and acceptable accuracy of calculating the distance to the damage site under various adverse conditions of communication with the satellite system are provided. These functions are implemented in the device using a recording unit that records the initial stage of the transition process with a high time resolution, and a local exact time signal shaper with a global accurate time signal control unit from the satellite system, which ensures reliable operation during periods of no signal from the satellite system .

Thus, the claimed method and device allows more accurately and reliably determine the distance to the place of damage than the prototype. The device is able to function reliably in operating places where communication with the satellite system is possible, which leads to its wider use and compares favorably with known similar technical solutions.

The claimed method and device are new and original solutions that differ significantly from the known ones and meet the criteria of "inventive step" and "novelty."

The figure shows a structural diagram of a device for determining the location of damage.

The circuit contains a power line 1 with a fault location 2. At the first end of line 3, a first half-set of 4 devices for determining the location of damage is installed, at the second end of line 5 a second half-set 6 is installed, similar to half-intelligence 4. Half-set 4 contains: block 7 of a voltage and current meter connected by input to end 3 of line 1; block 8 comparison, the input of which is connected to the output of the threshold element 9; block 10 registration measured with increased time resolution of voltages and currents, in which the first input is connected to the output of block 7 of the voltage and current meter, the second input is connected to the output of block 8 comparison; a fault location calculator unit 11 connected through a communication port and through a first communication channel 12 to a similar port 13 of a fault location calculator block of a second half-set 6, an input of a fault location calculator block 11 is connected to an output of a block 10; local time shaper 14 connected through the communication port and through the second communication channel 15 to a similar port 16 of the local time shaper of the second half-set 6, the first input of the local time shaper 14 is connected to the output of the global exact time signal receiving unit 17 from the satellite system and the input of the global exact time signal control unit 18, the second input of the local exact time driver 14 is connected to the output of the global exact time signal control unit 18, the output is formed I 14 local precise time is connected to the third input register unit 10 measured with high temporal resolution of voltages and currents.

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, performed with increased time resolution in a sliding window. When the measured electrical value exceeds the threshold value specified by the threshold element 9, the comparison unit 8 starts the unit 10, which registers the initial stage of the transition process. The transient recorded with a high temporal resolution causes a high content of the data transmitted to the block 11 for calculating the time stamp of the arrival of the electromagnetic wave. Synchronization of recording by block 10 of the first half-set 4 and a similar block of the second half-set 6 is carried out using a global exact time signal received by block 17 from the satellite system and transmitted through the former 14 to the input of block 10.

The timestamp of the arrival of the electromagnetic wave to the end of line 3 is determined by block 11 by means of detailed processing of the data received from block 10. The communication channel 12 exchanges time stamps between the half-sets 4 and 6, used to calculate the distance to the place of damage 2 of the power line.

The local time signal is generated during the absence of a satellite system signal controlled by unit 18. When the signal from the global exact time signal control unit 18 is received, the local exact time signal generator 14 transmits a command to start the former through the communication port, second communication channel 15 and port 16 local exact time of the second half-set 6. As a result, the driver of the local exact time signals of the second half-set 6, which is synchronized by signal Global exact time of the satellite system. At the time of 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 14 performs the function of the slave source of the local exact time signal, which is synchronized via the second communication channel 15. If the second half-set 6 does not have a global exact signal time was fixed earlier than on the first half-set, then the former 14 of the first half-set 4. In order to minimize time delays in the second communication channel 15, it is preferable to use a dedicated optical fiber line.

The use of transient voltages and currents recorders with a higher temporal resolution introduced into the device makes it possible to increase the content in the collected data used to determine the moments of arrival of an electromagnetic wave to the ends of the line and to provide a more reliable and accurate calculation of the place of damage to the power line. The use of means for generating a local exact time signal during the absence of a global exact time signal of a satellite system makes it possible to determine the location of damage with acceptable accuracy even in the event of loss of communication with the satellite system. These factors determine the higher reliability of the proposed technical solutions and their wider application, in contrast to the known analogues.

Information sources:

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

2. RF patent No. 2475768 IPC G01R 31/08, publ. 02/20/2013, bull. No. 5 (prototype).

Claims (2)

1. The method of determining the location of damage to the power line, which consists in the fact that at each end of the line measure currents and voltages, compare them with the corresponding threshold levels, calculate the distance to the place of damage by the difference in the moments of time of arrival of the electromagnetic wave to the ends of the line, determined using the signal global time from a satellite system, characterized in that the currents and voltages measured with increased time resolution are recorded, the presence of a global time from the satellite system at each end of the line, the absence of a global exact time signal from the satellite system is detected, and in the absence of a global exact time signal from the satellite system, at least one end of the line forms a local exact time signal coordinated by the signal transmitted from end of the line where there is a global accurate time signal from the satellite system. 2. A device for determining the location of damage to the power line, consisting of at least two half-sets, each of which is connected to the corresponding end of the power line and contains a voltage and current meter for power lines, the input of which is connected to the end of the power line, a comparison unit, threshold element, global exact time signal receiving unit from a satellite system, fault location calculator unit connected via a communication port through a first communication channel to a similar subtract port a splitter of the damage site of the second half-set, the first input of the comparison unit is connected to the output of the voltage and current meter of the power lines, the second input of the comparison unit is connected to the output of the threshold element, characterized in that each half-set has a recording unit of voltages and currents measured with a higher time resolution, a global exact time signal control unit and a local local time signal driver connected via a communication port through a second communication channel to a similar port a local local time signal generator of the second half-set, the first input of the local local time signal driver is connected to the output of the global local time signal receiving unit and the input of the global local time signal control unit, the second input of the local local time signal generator is connected to the output of the global local time signal control unit, the first input of the recording unit measured with increased time resolution of the voltage and currents is connected to the output of the unit of the voltage meter and line currents power transmission, the second input of the recording unit measured with increased time resolution of the voltages and currents is connected to the output of the comparison unit, the third input of the registration unit measured with increased time resolution of the voltages and currents is connected to the output of the driver of the local local time signal, the output of the recording unit measured with increased time resolution of the voltage and currents connected to the input of the calculator of the place of damage.

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