CN107179478A - A kind of submarine cable parameter detecting system - Google Patents

Abstract

The invention discloses a kind of submarine cable parameter detecting system, bag experiment power supply, the near-end of itself and submarine cable is electrically connected；First controlled disconnecting link, it is connected between experiment power supply and the near-end of submarine cable；The distal end of second controlled disconnecting link, its one end connection jaws and submarine cable is electrically connected, other end connection jaws ground connection；Current transformer, it is attempted by submarine cable；Voltage transformer, one end connection jaws of its primary side are connected with the near-end of submarine cable, other end connection jaws ground connection, one end connection jaws ground connection of secondary side；Measure control module difference summation current transformer and voltage transformer, the impedance value of submarine cable is calculated with the measurement electric current that is transmitted according to current transformer and voltage transformer and measurement voltage signal, the distribution impedance and distribution susceptance of submarine cable are obtained by impedance value, the testing progress of distribution impedance and distribution susceptance is improved.

Description

A kind of submarine cable parameter detecting system

Technical field

The present invention relates to detecting system, and in particular to a kind of submarine cable parameter detecting system.

Background technology

China possesses more than 300 ten thousand square kilometres of marine site and more than 18000 kilometers of long coastline, coastal to be distributed with more than 6000 Island.At present, China increasingly payes attention to the development and utilization of marine resources, national defense construction, Islands Exploitation, marine wind electric field, sea The exploitation of foreign petroleum resources etc. are required to the support of electric power.Seabed power transmission cable engineering construction is to promote economic integration, Adapt to national energy strategical planning, optimization energy source configuration, the important component for reducing ambient influnence.

Southern major network is that the first bar 500kV of China is extra large across Qiongzhou Strait 500kV sea electric power cables with Hainan Power Grid networking Bottom cable.Cable uses self-tolerant oil charging cable, and it is structurally characterized in that and is filled with the insulating oil of low viscosity inside cable insulation, and Certain pressure is supplied by oil-servicing facilities, to eliminate the possibility that insulating inner produces air gap.500kV submarine cables are exchanged to occur During failure, rely primarily on the electric parameter of measurement submarine cable and come tracing trouble position to calculate the variable quantity of submarine cable electrical quantity Put, and the core electric parameter of submarine cable is mainly distribution impedance and distribution susceptance, but do not have a reliable inspection at present Examining system can simply, accurately measure the distribution impedance for drawing submarine cable and distribution susceptance, so as to can not accurately diagnose Submarine cable failure, the timely exclusion to submarine cable failure.

The content of the invention

It is an object of the invention to overcome above-mentioned the deficiencies in the prior art to be used to determine submarine cable distribution resistance there is provided one kind Anti- and distribution susceptance detecting system.

To achieve the above object, the technical scheme is that：

A kind of submarine cable parameter detecting system, including

Experiment power supply, the near-end of itself and submarine cable is electrically connected；

First controlled disconnecting link, it is connected between experiment power supply and the near-end of submarine cable, for changing submarine cable Off-state；

The distal end of second controlled disconnecting link, its one end connection jaws and submarine cable is electrically connected, other end connection jaws ground connection, uses In the ground state for changing submarine cable；

Current transformer, it is attempted by submarine cable, the measurement current signal for obtaining submarine cable；

Control module is measured, its summation current transformer is connected, for receiving the submarine cable acquired in current transformer Measure current signal；

Voltage transformer, one end connection jaws of its primary side are connected with the near-end of submarine cable, and other end connection jaws connect Ground, one end connection jaws ground connection of secondary side, other end connection jaws are connected with measurement control module；Voltage transformer is used to obtain The measurement voltage signal of submarine cable, and acquired submarine cable measurement voltage signal is sent in measurement control module；

Measurement electric current and measurement that the measurement control module is transmitted according to current transformer and voltage transformer Voltage signal calculates the impedance value of submarine cable.

The submarine cable parameter detecting system also includes the first GPS timing devices, the He Hai being connected with experiment power supply The 2nd GPS timing devices that cable distal end in bottom is connected and and measure the 3rd GPS timing devices that control module is connected.

The measurement control module includes

Binding post, it is used to connect submarine cable, current transformer and and voltage transformer；

Isolated location, it is used to isolate electric current, voltage measurement signal and submarine cable power supply signal that binding post transmission comes Interference；

Signal condition and collecting unit, it is used to gather voltage, the current measurement signal after isolation；

Digital signal processor, it is used for voltage, the current measurement signal for collecting signal condition and collecting unit Digital operation is carried out, the corresponding impedance value of voltage, current measurement signal is calculated and submarine cable is calculated according to impedance value Distribution impedance and distribution susceptance；

Communication control unit, it is used to realize the communication between experiment power supply and the first controlled disconnecting link, the second controlled disconnecting link；

Clock control cell, it passes through the first GPS timing devices, the 2nd GPS timing devices and the 3rd GPS timing devices Carry out the change of Control experiment power supply, the first controlled disconnecting link and the second controlled disconnecting link state；

Power control unit, it is used for the access and disconnection of Control experiment power supply.

The measurement control module also includes display end, mouse end, printing end and interface end, and the display end is used to show Show voltage or current waveform that test is arrived, mouse end is used for the position for controlling the upper mouse of display, and printing end is used to print measurement knot Really, interface end is used to export to measurement result in USB.

The experiment power supply is alien frequencies signal power source, and working frequency is 40Hz-60Hz.

The experiment power supply includes the filter for arranging loop, inversion circuit and being connected between arrangement loop and inversion circuit Ripple loop；Wherein, the ac voltage rectifier that loop is connected with three-phase alternating-current supply and is exported three-phase alternating-current supply is arranged Into DC voltage, filter circuit is used to filtering the subsidiary harmonic wave arranged in the DC voltage that is exported of loop, and inversion circuit will be through The DC voltage of filter circuit filtering is transformed into alternating voltage output.

The filter circuit is formed in parallel by least two filtering submodules, and the filtering submodule is by multiple filtering half sons Block coupled in series is formed, and half submodule of the filtering is by resistance and is attempted by ohmically electric capacity and is constituted.

The arrangement loop includes transformer and bridge rectifier loop, the first winding access three-phase alternating current of transformer Source, the secondary winding of transformer is connected with bridge rectifier loop, bridge rectifier loop by ac voltage rectifier into DC voltage, DC voltage is transformed into alternating voltage by inversion circuit.

The bridge rectifier loop is made up of the first diode, the second diode, the 3rd diode and the 4th diode, First diode and the 3rd diode are in series, and the second diode and the 4th diode are in series, the negative electrode of the second diode and The negative electrode of first diode is connected, and the anode of the 4th diode and the anode of the 3rd diode are connected, transformer secondary around One terminals of group are connected between the first diode and the 3rd diode, and another terminals of transformer secondary winding are connected to Between second diode and the 4th diode, the negative electrode of the input of filter circuit and the second diode is connected, filter circuit Output end be connected with the anode of the 4th diode.

Inversion circuit is by first switch pipe, second switch pipe, the 3rd switching tube, the 4th switching tube, the first reverse parallel connection two Pole pipe, the second anti-parallel diodes, the 3rd anti-parallel diodes, the 4th anti-parallel diodes, first resistor, the second electricity Resistance, 3rd resistor, the 4th resistance, the first electric capacity, the second electric capacity, the 3rd electric capacity, the 4th electric capacity, inductance and load capacitance institute group Into；

First switch pipe and second switch pipe are in series, and the 3rd switching tube and the 4th switching tube are in series, the 3rd switching tube Colelctor electrode be connected with the colelctor electrode of first switch pipe, the emitter stage of the 4th switching tube is connected with the emitter stage of first switch pipe Connect in succession, the base stage of first switch pipe is connected with the negative electrode of the second diode, the emitter stage of second switch pipe and the four or two pole The anode of pipe is connected, and the anode and negative electrode of the first anti-parallel diodes distinguish the emitter and collector phase of first switch pipe The emitter and collector of connection, the anodes of the second anti-parallel diodes and negative electrode second switch pipe respectively is connected, and the 3rd The emitter and collector of the anode of anti-parallel diodes and negative electrode the 3rd switching tube respectively is connected, the 4th reverse parallel connection two The emitter and collector of the anode of pole pipe and negative electrode the 4th switching tube respectively is connected；

First resistor and the first electric capacity are in series, the negative electrode phase of the input of first resistor and the first anti-parallel diodes Connection, one end of the first electric capacity is connected with the anode of the first anti-parallel diodes；Second resistance and the second electric capacity are in series, The negative electrode of the input of second resistance and the second anti-parallel diodes is connected, one end of the second electric capacity and the second reverse parallel connection The anode of diode is connected；3rd resistor and the 3rd electric capacity are in series, the input of 3rd resistor and the 3rd reverse parallel connection two The negative electrode of pole pipe is connected, and one end of the 3rd electric capacity is connected with the anode of the 3rd anti-parallel diodes；4th resistance and Four electric capacity are in series, and the input of the 4th resistance and the negative electrode of the 4th anti-parallel diodes are connected, one end of the 4th electric capacity It is connected with the anode of the 4th anti-parallel diodes pipe；

One end of inductance is connected at the node location between first switch pipe and second switch pipe, and the other end is connected to At node location between three switching tubes and the 4th switching tube；One end of load capacitance is connected to the 3rd switching tube and the 4th switch At node location between pipe, the colelctor electrode of the other end and the 4th switching tube is connected, and two ends of load capacitance and leading to connect At line.

Compared with prior art, its advantage is the present invention：

By the way that the distribution impedance and distribution susceptance of submarine cable can be obtained with this detecting system, distribution impedance is improved With the testing progress of distribution susceptance, the Anti-Jamming Technique in distribution impedance and distribution susceptance test process is solved the problems, such as, effectively System load flow stability Calculation and traveling wave positioning are carried out, submarine cable reliability of operation and stability is improved.

Brief description of the drawings

Fig. 1 is the structural representation of submarine cable parameter detecting system of the present invention；

The schematic diagram of submarine cable parameter detecting system when Fig. 2 is the first controlled disconnecting link closure；

The signal of submarine cable parameter detecting system when Fig. 3 is the first controlled disconnecting link and the second controlled disconnecting link closure Figure；

Fig. 4 is the composition schematic diagram of measurement control module；

Fig. 5 is the built-up circuit figure of experiment power supply；

In figure：1st, experiment power supply；2nd, submarine cable；3rd, the first controlled disconnecting link；4th, the second controlled disconnecting link；5th, Current Mutual Inductance Device；6th, control module is measured；7th, voltage transformer；8th, the first GPS timing devices；9th, the 2nd GPS timing devices；10th, the 3rd GPS Timing device；100th, loop is arranged；200th, filter circuit；300th, inversion circuit.

Embodiment

Present disclosure is described in further details with reference to the accompanying drawings and detailed description.

Embodiment：

As shown in fig.1, the structural representation of the submarine cable parameter detecting system provided for the present embodiment, the detection system System includes experiment power supply 1, and the near-end of itself and submarine cable 2 is electrically connected, to provide power supply for whole detecting system, wherein, The first controlled disconnecting link 3 is connected between the near-end of experiment power supply 1 and submarine cable 2, by the closure for changing the first controlled disconnecting link 3 State can change submarine cable 2 energization whether, the second controlled disconnecting link 4 is connected with the distal end of submarine cable 2, second is controlled The other end connection jaws ground connection of disconnecting link 4, that is to say, that sea can both be changed by the closure state for changing the second controlled disconnecting link 3 The ground state of bottom cable 2.In submarine cable 2 and current transformer 5 is connected to, seabed electricity is obtained by current transformer 5 The measurement current signal of cable 2, current transformer 5 is obtained measurement current signal and is sent to measurement control module 6；In addition, being Obtain the voltage signal of submarine cable 2, one end connection jaws of the primary side of voltage transformer 7 and the near-end phase of submarine cable 2 Connection, other end connection jaws ground connection, one end connection jaws ground connection of secondary side, other end connection jaws are connected with measurement control module 6 Connect, in this way, voltage transformer 7 can obtain the measurement voltage signal of submarine cable 2, and acquired submarine cable is measured 2 Voltage signal is sent in measurement control module 6, and measurement control module 6 can be according to current transformer 5 and voltage transformer 7 The measurement electric current and measurement voltage signal transmitted is counted to calculate the impedance value of submarine cable 2 according to impedance value The impedance value for drawing submarine cable is calculated, the distribution impedance and distribution electricity of submarine cable are calculated finally according to impedance value Receive.

Specifically, this detecting system survey calculation show that the distribution impedance and distribution susceptance of submarine cable are needed by such as Under operating procedure：

(1) impedance 1z_sMeasurement

As shown in Fig. 2 closing the first controlled disconnecting link 3, disconnecting the second controlled disconnecting link 4, then experiment power supply 1 is in submarine cable 2 The application voltage of sending end isElectric current isThe impedance 1Z that then sending end is measured_SFor

Wherein：The measurement magnitude of voltage obtained by voltage transformer；The measurement electric current obtained by current transformer Value；

(2) impedance 2z_oMeasurement

As shown in figure 3, closing the first controlled disconnecting link 4 of controlled disconnecting link 3 and second, then experiment power supply 1 is in the sending end of submarine cable 2 Application voltage beElectric current isThe impedance 2Z that then sending end is measured_oFor

Wherein：The measurement magnitude of voltage obtained by voltage transformer；The measurement electric current obtained by current transformer Value；

(3) calculating of the distribution impedance of submarine cable and distribution susceptance

Wherein, distribution impedance (r+jwl) is calculated by equation below：

Distribution susceptance (jwc) is calculated by equation below：

Wherein, cosh^-1For anti-hyperbolic complex function value, D is the length of submarine cable.

It follows that by can fast, accurately obtain the impedance value of submarine cable, Jin Erke with this detecting system To obtain the distribution impedance and distribution susceptance of submarine cable, the measuring accuracy and speed of distribution impedance and distribution susceptance are improved, So as to exclude the failure of submarine cable in time, submarine cable reliability of operation and stability are improved.

Preferably, when above-mentioned submarine cable parameter detecting system also includes the one GPS pairs be connected with experiment power supply 1 The 2nd GPS timing devices 9 that device 8 and submarine cable distal end 2 is connected and and measure the control module 6 is connected the 3rd GPS timing devices 10, can be right by the first GPS timing devices 8, the 2nd GPS timing devices 9 and the 3rd GPS timing devices 10 When the time pair is played in whole system test, synchronous effect, to be further ensured that the accuracy of testing result.

Specifically, as shown in figure 4, above-mentioned measurement control module 6 includes binding post UA, UN, it is used to connect seabed electricity Cable 2, current transformer 5 and and voltage transformer 7；Isolated location, it is used to isolate electric current, voltage that binding post transmission comes The interference of measurement signal and submarine cable power supply signal；Signal condition and collecting unit, it is used to gather voltage, the electricity after isolation Flow measurement signal；Digital signal processor, it is used for voltage, the current measurement letter for collecting signal condition and collecting unit Number carry out digital operation, calculate the corresponding impedance value of voltage, current measurement signal；Communication control unit, it is used to realize Communication between experiment power supply and the first controlled disconnecting link, the second controlled disconnecting link；Clock control cell, when it is by the one GPS pairs Device and the 2nd GPS timing devices carry out the change of Control experiment power supply, the first controlled disconnecting link and the second controlled disconnecting link state； Power control unit, it is used for the access and disconnection of Control experiment power supply；Display end, mouse end, printing end and interface end, institute State display end be used for show the voltage or current waveform test, mouse end is used to controlling the position of the upper mouse of display, printing end For printing measurement result, interface end is used to export to measurement result in USB, in this way, this measurement control module can reach Following index：

Measurement range：The μ F of electric capacity 0.1~30；The Ω of impedance 0.1~400；Impedance angle：0.1 °~360 °.

Measurement Resolution：The μ F of electric capacity 0.01；The Ω of impedance 0.01；0.01 ° of impedance angle.

Instrument use environment：- 15 DEG C~+40 DEG C of environment temperature；Relative humidity ＜ 90%.

Accuracy of measurement：During measured capacitance amount >=1 μ F, the μ F of ± 1% reading ± 0.01；During measured capacitance amount 1 μ F of ＜, ± The μ F of 3% reading ± 0.01.During tested impedance >=1 Ω, the Ω of ± 1 reading % ± 0.01；During tested impedance 1 Ω of ＜, ± 3% reading ± 0.01Ω；Impedance angle test condition electric current>0.1A, ± 0.3 ° of (voltage>1.0V), ± 0.5 ° of (voltage：0.2V~1.0V).

Error 72ms at GPS couples.

Wherein, above-mentioned experiment power supply is alien frequencies signal power source, and working frequency is 40Hz-60Hz, to overcome detection to be The Hz noise problem united in the presence of test process, further to improve the accuracy of testing result, effectively carries out system Power flow stability is calculated and traveling wave positioning, submarine cable reliability of operation and stability is improved, specifically, as shown in figure 5, the electricity Source includes the filter circuit for arranging loop 100, inversion circuit 300 and being connected between arrangement loop 100 and inversion circuit 300 200；Wherein, the ac voltage rectifier that loop 100 is connected with three-phase alternating-current supply and is exported three-phase alternating-current supply is arranged Into DC voltage, filter circuit 200 is used to filter the subsidiary harmonic wave arranged in the DC voltage that loop is exported, inversion circuit 300 DC voltages for filtering filtered loop 200 are transformed into alternating voltage output.

Specifically, the arrangement loop 100 includes transformer and bridge rectifier loop, the first winding access three of transformer Cross streams power supply, the secondary winding of transformer is connected with bridge rectifier loop, bridge rectifier loop by ac voltage rectifier into DC voltage, specifically, the bridge rectifier loop by the first diode VD1, the second diode VD2, the 3rd diode VD3 and 4th diode constitutes VD4, and the first diode VD1 and the 3rd diode VD3 are in series, the second diode VD2 and the four or two pole Pipe VD4 is in series, and the second diode VD2 negative electrode and the first diode VD2 negative electrode are connected, the 4th diode VD4 sun Pole is connected with the 3rd diode VD3 anode, and a terminals of transformer secondary winding are connected to the first diode VD1 and Between three diode VD3, another terminals of transformer secondary winding are connected to the second diode VD2 and the 4th diode VD4 Between, the input of filter circuit and the second diode VD2 negative electrode are connected, the output end of filter circuit and the 4th diode VD4 anode is connected.And the DC voltage of bridge rectifier loop output then then changes conclusion of the business after inversion circuit 300 from direct current Flow voltage output.

Wherein, the filter circuit 200 is formed in parallel by two filtering submodules, and filtering submodule is by half submodule of multiple filtering Block is in series, half submodule of filtering then by 20K/10W resistance and be attempted by ohmically electric capacity and constituted, filtering back In the presence of road, with filter off arrange loop 100 middle in output DC voltage can subsidiary harmonic wave (filtering out primary and secondary harmonic wave), raising The smoothness of output voltage waveforms.

And the inversion circuit 300 is then by first switch pipe D1, second switch pipe D2, the 3rd switching tube D3, the 4th switch D4 Pipe, the first anti-parallel diodes Z1, the second anti-parallel diodes Z2, the 3rd anti-parallel diodes Z3, the 4th reversely simultaneously Di- pole pipe Z4, first resistor R1, second resistance R2,3rd resistor R3, the 4th resistance R4, the first electric capacity C1, the second electric capacity C2, 3rd electric capacity C3, the 4th electric capacity C4, inductance Lf and load capacitance Cf are constituted；Wherein, first switch pipe Z1 and second switch Pipe Z2 is in series, and the 3rd switching tube Z3 and the 4th switching tube Z4 are in series, the 3rd switching tube Z3 colelctor electrode and first switch pipe Z1 colelctor electrode is connected, and the 4th switching tube Z4 emitter stage is connected connection with first switch pipe Z1 emitter stage, and first opens The base stage for closing pipe Z1 is connected with the second diode VD2 negative electrode, second switch pipe Z2 emitter stage and the 4th diode VD4's Anode is connected, the first anti-parallel diodes D1 anode and negative electrode difference first switch pipe Z1 emitter and collector phase Connection, the second anti-parallel diodes D2 anode and negative electrode second switch pipe Z2 respectively emitter and collector are connected, 3rd anti-parallel diodes D3 anode and negative electrode the 3rd switching tube Z3 respectively emitter and collector are connected, and the 4th is anti- Emitter and collector to parallel diode D4 anode and negative electrode the 4th switching tube Z4 respectively is connected, first switch pipe Z1, second switch pipe Z2, the 3rd switching tube Z3, the bridge type inverse loop of the 4th switching tube Z4 compositions are realized and become DC voltage Alternating voltage；

And first resistor R1 and the first electric capacity C1 are in series, first resistor R1 input and the first anti-parallel diodes D1 negative electrode is connected, and the first electric capacity C1 one end is connected with the first anti-parallel diodes D2 anode；Second resistance R2 It is in series with the second electric capacity C2, second resistance R2 input and the second anti-parallel diodes D2 negative electrode are connected, second Electric capacity C2 one end is connected with the second anti-parallel diodes D2 anode；3rd resistor R3 and the 3rd electric capacity C3 are in series, 3rd resistor R3 input and the 3rd anti-parallel diodes D3 negative electrode are connected, the 3rd electric capacity C3 one end and the 3rd anti- Anode to parallel diode D3 is connected；4th resistance R4 and the 4th electric capacity C4 are in series, the 4th resistance R4 input and 4th anti-parallel diodes D4 negative electrode is connected, the 4th electric capacity C4 one end and the 4th anti-parallel diodes D4 anode It is connected, in this way, under the module that resistance and electric capacity are constituted, the uniform voltage function in bridge type inverse loop can be achieved, makes the bridge-type inverse Become loop inversion first switch pipe Z1, second switch pipe Z2, the 3rd switching tube Z3,4th under normal work or unusual service condition to open Pipe Z4 is closed not damage；

And inductance Lf one end is then connected at the node location A between first switch pipe Z1 and second switch pipe Z2, separately One end is connected at the Node B site between the 3rd switching tube Z3 and the 4th switching tube Z4；Load capacitance Cf one end is connected to At Node B site between 3rd switching tube Z3 and the 4th switching tube Z4, the other end and the 4th switching tube Z4 colelctor electrode are connected Connect, load capacitance Cf two ends simultaneously lead to IA, IN at wiring.Cf is the basic load of output loop, ensures output loop not There is nominal load when connecing load.

In this way, experiment power supply can reach following index：

Power supply：Three-phase, AC 380V ± 10%, 15A, 50Hz (virtual value).

Internal alien frequencies power supply characteristic：AC three-phase maximum output voltage virtual value is 200V；Maximum output current virtual value For 5A；Output frequency is that 30Hz~2.5kHz is adjustable.

Antijamming capability：The maximum disturbance current that can be born in circuit head and end short circuit grounding is 40A (particular/special requirements 100A can be achieved down).It is 1 in the ratio between output signal and interference signal:It can still stablize under conditions of 10 and accurately complete test.

Above-described embodiment is simply to illustrate that the technical concepts and features of the present invention, the purpose is to be to allow in the art Those of ordinary skill can understand present disclosure and implement according to this, and it is not intended to limit the scope of the present invention.It is all It is the equivalent change or modification made according to the essence of present invention, should all covers within the scope of the present invention.

Claims (10)

1. a kind of submarine cable parameter detecting system, it is characterised in that including

Experiment power supply, the near-end of itself and submarine cable is electrically connected；

First controlled disconnecting link, it is connected between experiment power supply and the near-end of submarine cable, the disconnection for changing submarine cable State；

The distal end of second controlled disconnecting link, its one end connection jaws and submarine cable is electrically connected, other end connection jaws ground connection, for changing Become the ground state of submarine cable；

Current transformer, it is attempted by submarine cable, the measurement current signal for obtaining submarine cable；

Control module is measured, its summation current transformer is connected, for receiving the submarine cable measurement acquired in current transformer Current signal；

Voltage transformer, one end connection jaws of its primary side are connected with the near-end of submarine cable, other end connection jaws ground connection, two One end connection jaws ground connection of secondary side, other end connection jaws are connected with measurement control module；Voltage transformer is used to obtain seabed The measurement voltage signal of cable, and acquired submarine cable measurement voltage signal is sent in measurement control module；

Measurement electric current and measurement voltage that the measurement control module is transmitted according to current transformer and voltage transformer Signal come calculate submarine cable distribution impedance and distribution susceptance.

2. submarine cable parameter detecting system as claimed in claim 1, it is characterised in that the submarine cable parameter detecting system System also includes the 2nd GPS that the first GPS timing devices are connected with submarine cable distal end being connected with experiment power supply to fashionable dress The 3rd GPS timing devices put and be connected with measurement control module.

3. submarine cable parameter detecting system as claimed in claim 2, it is characterised in that the measurement control module includes

Binding post, it is used to connect submarine cable, current transformer and and voltage transformer；

Isolated location, it is used to isolate the dry of electric current, voltage measurement signal and submarine cable power supply signal that binding post transmission comes Disturb；

Signal condition and collecting unit, it is used to gather voltage, the current measurement signal after isolation；

Digital signal processor, its voltage, current measurement signal for being used to collect signal condition and collecting unit are carried out Digital operation, calculates the corresponding impedance value of voltage, current measurement signal and point of submarine cable is calculated according to impedance value Cloth impedance and distribution susceptance；

Communication control unit, it is used to realize the communication between experiment power supply and the first controlled disconnecting link, the second controlled disconnecting link；

Clock control cell, it is controlled by the first GPS timing devices, the 2nd GPS timing devices and the 3rd GPS timing devices The change of experiment power supply processed, the first controlled disconnecting link and the second controlled disconnecting link state；

Power control unit, it is used for the access and disconnection of Control experiment power supply.

4. submarine cable parameter detecting system as claimed in claim 3, it is characterised in that the measurement control module also includes Display end, mouse end, printing end and interface end, the display end are used to show the voltage or current waveform tested, mouse The position for controlling the upper mouse of display is held, printing end is used to print measurement result, and interface end is used to that measurement result will to be exported Into USB.

5. submarine cable parameter detecting system as claimed in claim 1, it is characterised in that the experiment power supply is alien frequencies signal Power supply, working frequency is 40Hz-60Hz.

6. submarine cable parameter detecting system as claimed in claim 5, it is characterised in that the experiment power supply includes arranging back Road, inversion circuit and the filter circuit being connected between arrangement loop and inversion circuit；Wherein, loop and three-phase alternating current are arranged The ac voltage rectifier that power supply is connected and is exported three-phase alternating-current supply is into DC voltage, and filter circuit, which is used to filter, to be arranged The DC voltage of filtered circuit filtration is transformed into exchange by the subsidiary harmonic wave in the DC voltage that loop is exported, inversion circuit Voltage output.

7. submarine cable parameter detecting system as claimed in claim 6, it is characterised in that the filter circuit is by least two Filtering submodule is formed in parallel, and the filtering submodule is formed by multiple filtering half son's block coupled in series, half submodule of the filtering By resistance and it is attempted by ohmically electric capacity and is constituted.

8. submarine cable parameter detecting system as claimed in claim 6, it is characterised in that the arrangement loop includes transformer And bridge rectifier loop, the first winding access three-phase alternating-current supply of transformer, the secondary winding and bridge rectifier of transformer Loop is connected, and bridge rectifier loop is by ac voltage rectifier into DC voltage.

9. submarine cable parameter detecting system as claimed in claim 8, it is characterised in that the bridge rectifier loop is by first Diode, the second diode, the 3rd diode and the 4th diode composition, the first diode and the 3rd diode are in series, Second diode and the 4th diode are in series, and the negative electrode of the negative electrode of the second diode and the first diode is connected, and the four or two The anode of the anode of pole pipe and the 3rd diode is connected, terminals of transformer secondary winding be connected to the first diode and Between 3rd diode, another terminals of transformer secondary winding are connected between the second diode and the 4th diode, filter The negative electrode of the input in ripple loop and the second diode is connected, and the output end of filter circuit is connected with the anode of the 4th diode Connect.

10. submarine cable parameter detecting system as claimed in claim 8, it is characterised in that the inversion circuit is opened by first Guan Guan, second switch pipe, the 3rd switching tube, the 4th switching tube, the first anti-parallel diodes, the second anti-parallel diodes, 3rd anti-parallel diodes, the 4th anti-parallel diodes, first resistor, second resistance, 3rd resistor, the 4th resistance, One electric capacity, the second electric capacity, the 3rd electric capacity, the 4th electric capacity, inductance and load capacitance are constituted；

First switch pipe and second switch pipe are in series, and the 3rd switching tube and the 4th switching tube are in series, the collection of the 3rd switching tube Electrode is connected with the colelctor electrode of first switch pipe, and the emitter stage of the 4th switching tube is connected in succession with the emitter stage of first switch pipe Connect, the base stage of first switch pipe is connected with the negative electrode of the second diode, the emitter stage of second switch pipe and the 4th diode Anode is connected, and the anode of the first anti-parallel diodes is connected with the emitter and collector that negative electrode distinguishes first switch pipe Connect, the emitter and collector of the anodes of the second anti-parallel diodes and negative electrode second switch pipe respectively is connected, and the 3rd is anti- Emitter and collector to anode and negative electrode the 3rd switching tube respectively of parallel diode is connected, the pole of the 4th reverse parallel connection two The emitter and collector of the anode of pipe and negative electrode the 4th switching tube respectively is connected；

First resistor and the first electric capacity are in series, and the negative electrode of the input of first resistor and the first anti-parallel diodes pipe is connected Connect, one end of the first electric capacity is connected with the anode of the first anti-parallel diodes；Second resistance and the second electric capacity are in series, the The negative electrode of the input of two resistance and the second anti-parallel diodes is connected, one end of the second electric capacity and the second reverse parallel connection two The anode of pole pipe is connected；3rd resistor and the 3rd electric capacity are in series, the input of 3rd resistor and the pole of the 3rd reverse parallel connection two The negative electrode of pipe is connected, and one end of the 3rd electric capacity is connected with the anode of the 3rd anti-parallel diodes；4th resistance and the 4th Electric capacity is in series, and the input of the 4th resistance and the negative electrode of the 4th anti-parallel diodes are connected, one end of the 4th electric capacity and The anode of 4th anti-parallel diodes is connected；

One end of inductance is connected at the node location between first switch pipe and second switch pipe, and the other end is connected to the 3rd and opened Close at the node location between pipe and the 4th switching tube；One end of load capacitance be connected to the 3rd switching tube and the 4th switching tube it Between node location at, the colelctor electrode of the other end and the 4th switching tube is connected, and the two ends of load capacitance are simultaneously led at wiring.