RU2572166C1 - Fibre-optic system of partial discharge control on defects of overhead power transmission line insulation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to the field of control of high voltage overhead power transmission lines (HV) control and may be used to control condition of HV insulators. The proposed system comprises a control terminal, which is connected by a fibre-optic line with modules of primary processing placed on the HV supports. Each module comprises band pass filters, inlets of which are connected to the appropriate current sensor, which measures currents induced in an HV earth wire by partial discharges (PD), produced by HV insulators defects. An electric optic modulator is connected to the outlet of each filter, on the basis of a Bragg grating, built into the optic fibre line. The control terminal comprises a source of laser radiation and a photodetector, a programmable data processing unit, a circulator. With the help of the unit, the terminal determines spectral shifts of emissions reflected by Bragg gratings of modulators, calculates, according to appropriate spectral shifts, intensity of signals at outputs of band pass filters and, comparing specified intensities, detects a module closest to the insulation defect - source of PD.

EFFECT: reduced requirements to power supply of primary processing modules, installed in HV supports, and increased reliability and information value of data transmission from these modules to a remote control terminal.

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Description

Technical field

The invention relates to the field of monitoring the state of high voltage overhead lines (VL) and can be used to monitor the condition of VL insulators.

State of the art

A known system for monitoring partial discharges (PD) for detecting local insulation defects of overhead lines, comprising a control terminal connected to primary processing modules located on the overhead poles, each of which includes a comb of bandpass filters connected by inputs to a current sensor induced by partial discharges in lightning protection VL cable [published application US 2013/0179099]. The prototype system compares the intensities of the signals emitted by the bandpass filters of each comb, estimates the degree of high-frequency attenuation of the emitted signals and the distance of the comb corresponding to this attenuation from the PD source (the comb closest to the PD source has a minimum degree of high-frequency attenuation).

The primary processing module of the prototype system, in addition to a comb of bandpass filters, includes electronic signal processing tools (including analog and digital processors) that evaluate the degree of high-frequency attenuation of the signals emitted by the filters of each comb, as well as a radio communication tool with a remote control terminal, which, by comparing the degree data the high-frequency attenuation of the PD signals emitted by the filter combs determines the primary processing unit closest to the local insulation defect generating R.

The disadvantage of the prototype is the high power consumption of the primary processing unit, necessary, in particular, to provide radio communications with a remote monitoring terminal, low noise immunity of transmitting PD data via a radio channel, inconvenience of operation, and reduced reliability due to the need to maintain the working state of electronic processing and radio communications located on the support and powerful sources of their power supply, and in the case of using batteries - the need for their frequent recharging.

Disclosure of invention

The technical result of the invention is to reduce the power requirements for the primary processing modules placed on the poles of the overhead lines, and to increase the reliability and information content of data transmission from these modules to the remote control terminal.

The subject of the invention is a system for monitoring partial discharges on insulation defects of an overhead power transmission line, comprising primary processing modules located on its supports, each of which contains at least one band-pass filter, the input of which is connected to the current sensor induced in partial lightning protection cable of the overhead line discharges, and the output to the electro-optical modulator based on the Bragg grating, built into the fiber optic communication line with the monitoring terminal, while the monitoring terminal contains A laser radiation source and a photodetector connected to a programmable data processing unit, to which a specified optical fiber line is connected through a circulator or a directional coupler, is capable of determining the spectral shifts of radiation reflected by the Bragg gratings of electro-optical modulators, calculating, according to the corresponding spectral shifts, the intensities of the output signals of the strip filters, comparing the calculated intensities and identifying, according to the results of the comparison, the primary work closest to the source of partial discharges.

The proposed system differs from the prototype in that an electro-optical modulator based on the Bragg grating integrated into the fiber-optic communication line with the monitoring terminal is connected to the output of each band-pass filter, while the monitoring terminal contains a laser radiation source and a photodetector connected to the programmed data processing unit, to which The circulator or directional coupler indicated the indicated optical fiber line, and is configured to determine the spectral shifts of the radiation reflected x Bragg gratings of electro-optical modulators, and calculating, according to the corresponding spectral shifts, the intensities of the output signals of the bandpass filters.

This allows you to get the above technical result.

The development of the invention relating to particular cases of its implementation is that:

- at least two primary processing modules contain combs of bandpass filters, and the control terminal is configured to compare the output signals of these combs according to the degree of high-frequency attenuation;

- several electro-optical modulators with mismatching reflectance spectra of Bragg gratings are integrated into a single fiber of the optical fiber line;

- the fiber-optic line contains several fibers, each of which has at least one electro-optical modulator based on the Bragg grating, and the control terminal is equipped with an optical switch that alternately connects it with the specified fibers.

The implementation of the invention in view of its developments

The drawing shows a functional diagram of the inventive system, which contains a control terminal 1 connected by a fiber optic line 2 with the primary processing modules 3 located on the poles of the overhead lines.

Each module 3 contains band-pass filters 4, the inputs of which are connected to the corresponding current sensor 5 by a segment 6 of the noise-protected cable. The current sensor 5 is placed on the lightning protection cable of the overhead line with the ability to measure the current induced in the cable by partial discharges caused by insulation defects (for example, defects in insulating suspensions). An electro-optical modulator 7 based on the Bragg grating integrated in the fiber optic line 2 is connected to the output of each filter 4.

As the fiber optic line 2, one or several fibers of the optical cable 8, laid along the overhead line, connected to the modules 3 using mounting couplings 9, placed on the overhead line supports, can be used. Modulators 7 of one module 3, as a rule, are optically sequentially integrated into one fiber of line 2. Modulators 7, built into one fiber of the fiber-optic line, have different (non-coincident) reflectance spectra of Bragg gratings.

The control terminal 1 comprises a laser source 10 and a photodetector 11, a programmable data processing unit 12, a circulator (or directional coupler) 13. The source 10 and the photodetector 11 are connected to the unit 12 by their input and output, respectively.

The optical fiber line 2 is connected to the output of the source 10 and the input of the photodetector 11 through the circulator 13. If several optical fibers are used in the line 2, it is connected to the circulator 13 through the multi-channel optical switch 14, which is additionally introduced into the terminal 1.

The program controlled by block 12 allows the terminal 1 to determine the spectral shifts of the radiation reflected by the Bragg gratings of the modulators 7 integrated in line 2, calculate, according to the corresponding spectral shifts, the signal intensities at the outputs of the bandpass filters 4 and, by comparing the indicated intensities, detect module 3 closest to the insulation defect - the source of partial discharges.

The system operates as follows.

The switch 14 under the control of the block 12 alternately connects the circulator 13 with several fibers of the optical fiber line 2, each of which is optically integrated at least one of the modulators 7.

The laser source 10 under the control of block 12 emits broadband radiation, which through the circulator 13 enters the next fiber of line 2 connected by the switch 14. Next, this radiation passes along the controlled VL through the connected fiber of the fiber optic line 2 and through all modulators optically integrated into the fiber 7.

The radiation reflected by the Bragg gratings of each modulator 7 is returned back and through the switch 14 is fed to the circulator 13, which branches them to the photodetector 11, preventing the reflected radiation from entering the source 10. The Bragg grating of each modulator 7 reflects the radiation at its Bragg wavelength that does not coincide with Bragg wavelengths of other modulators 7 embedded in the same fiber of line 2. Radiations of a different wavelength pass through modulator 7 without being reflected from its Bragg grating.

Each filter 4, connected to the sensor 5, selects and supplies to the corresponding modulator 7 currents of a certain frequency range induced by the PD in a lightning protection cable. In each modulator 7, the electric signal of the corresponding filter 4 deforms the Bragg grating, changing the Bragg wavelength and, thereby, shifting the frequency spectrum of the radiation reflected by the grating.

As modulators 7, for example, electro-optical modulators based on the Bragg grating, known from patent RU 2248022 or articles Goncharenko I.Α., Konojko A.I., Kuleshov V.K. Electro-optical modulator on the base of fiber Bragg gratings // Lightguides and their Applications II. - International Society for Optics and Photonics, 2004. - C. 29-36, available at http://dx.doi.org/l0.1117/12.581513.

The radiation reflected by the modulators 7 embedded in the fiber of line 2 connected by the switch 14 is received by the photodetector 11. The received radiation has spectral power peaks at frequencies reflected by the Bragg gratings of each of the modulators 7 embedded in the connected fiber of line 2.

The output signal of the photodetector 11 corresponds to the total spectrum of received emissions. Block 12 receives and digitizes the output signal of the photodetector 11 and, using the frequency separation method, extracts the spectral peaks of radiation reflected by the Bragg grating of the corresponding modulator 7. Then block 12 determines the spectral shift (from the initial value) of each selected spectral peak and calculates the intensity of the output signal proportional to the shift in the range of the corresponding filter 4. After that, block 12 compares the calculated intensities of the PD signals in the frequency ranges allocated by various ltrami 4, and the results of the comparison reveals closest to the source of the CR (insulation defect) module 3, wherein the intensity of the selected signals (and hence the CR currents) maximum.

When using in-band comb filters in module 3, block 12 determines the degree and nature of the attenuation of PD currents in the frequency ranges emitted by the band-pass filters of this comb. Induced currents of the Czech Republic, passing through a lightning protection cable, attenuate more strongly in high-frequency ranges. Comparing the output signals of the combs of various modules 3 by the degree of high-frequency attenuation, block 12 can more accurately determine the defective VL insulator.

The system provides continuous monitoring of the isolation state of overhead lines and the identification of local defects of insulating suspensions in real time.

Since electro-optical modulators 7 based on Bragg gratings, unlike radio transmitters, do not require power supply, the proposed system places less demands on the power supply of primary processing modules placed on the OHL supports, the failure-freeness of which largely determines the reliability of the control system. In those cases when the bandpass filters 4 can be performed on passive elements (for example, when one or two frequency ranges are used in module 3), module 3 can operate without any power sources at all. The fiber-optic signal transmission from the primary processing modules to the control terminal, implemented by the proposed system, additionally provides it with increased reliability, noise immunity, and, due to the optical fiber broadband, greater information content of the control of PD currents and, accordingly, insulation defects on the overhead line.

Claims (4)

1. A system for monitoring partial discharges on insulation defects of an overhead power line, containing primary processing modules located on its supports, each of which contains at least one band-pass filter, the input of which is connected to the current sensor induced in the lightning protection cable of the overhead line by partial discharges, and output - to the electro-optical modulator based on the Bragg grating, integrated into the fiber optic communication line with the monitoring terminal, while the monitoring terminal contains connected to the programmable a data processing unit, a laser radiation source and a photodetector, to which a specified optical fiber line is connected through a circulator or a directional coupler, and is configured to determine the spectral shifts of the radiation reflected by the Bragg gratings of the electro-optical modulators, calculate, according to the corresponding spectral shifts, the intensities of the output signals of the bandpass filters, compare the calculated intensities and the identification, according to the results of the comparison, of the primary processing module closest to the source partial discharges. 2. The system of claim 1, wherein the at least two primary processing modules comprise comb banks of band-pass filters, and the control terminal is configured to compare the output signals of said comb based on the degree of high frequency attenuation. 3. The system according to claim 1 or 2, in which several electro-optical modulators with mismatching reflectance spectra of Bragg gratings are integrated into a single fiber of the optical fiber line. 4. The system according to claim 1 or 2, in which the fiber optic line contains several fibers, each of which has at least one electro-optical modulator based on the Bragg grating, and the control terminal is equipped with an optical switch that alternately connects it with the specified fibers.