CN203965572U - Based on the system of flexible piezoelectric membraneous material monitoring GIS partial discharge position - Google Patents

Abstract

The utility model discloses a kind of system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position, comprise the calibrate AE sensor, signal deteching circuit, signal processing circuit, electric power management circuit and the warning circuit that are close on GIS outer wall, described calibrate AE sensor signal passes to signal processing circuit through signal deteching circuit, described electric power management circuit provides direct supply, and described warning circuit is electrically connected with signal processing circuit.Realize the object that finds fast and accurately discharge position.

Description

Based on the system of flexible piezoelectric membraneous material monitoring GIS partial discharge position

Technical field

The utility model relates to electric power monitoring field, particularly, relates to a kind of system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position.

Background technology

Along with the extensive application of GIS in electric system, newly-built transformer station of company was almost GIS equipment entirely in recent years.

In the time of the inner generation of GIS shelf depreciation, the high temperature producing in discharge process, make gas molecule that violent thermal motion occur, and propagate down by adjacent gaseous medium always, form sound wave, because the time of electric discharge is very short, the sound wave spectrum therefore producing is very wide, can be from tens hertz to several megahertzes.When this shows GIS internal discharge, can produce impact shock and sound, therefore can measure local discharge signal by mounting ultrasonic sensor on chamber outer wall.

As shown in Figure 1 in the time of inner generation electric discharge, sound wave and structure bidirectional coupled, sound pressure signal vertically acts on the inside surface of GIS housing, disc insulator and the outside surface of conducting metal bar and causes the vibration of structure as driving source, vibration is simultaneously internally sound field generation retroaction again, and its interactional effect causes the vibration of Al-alloy metal cylinder barrel in gas.Therefore,, by measuring the cylindrical vibration of Al-alloy metal, can monitor the inner electric discharge occurring of GIS.

Withstand voltage test is as the important step of GIS commissioning test, for guaranteeing that equipment bringing normally into operation has very important significance.But in process that commissioning test is withstand voltage, often occur that GIS punctures or the situation of flashover, the general people's ear that adopts goes the way of listening to determine it is which interval punctures now.Because pressure-resistant time is short, and GIS punctures rear sound and propagates in metal barrel, is difficult to judgement accurately and specifically discharges which position.

The research of GIS flashover breakdown location technology, did many basic research works both at home and abroad.Majority is to adopt channel ultrasonic sensor to monitor, or adopts ultrahigh frequency PD meter to monitor.

And channel ultrasonic sensor is monitored, adopt monitoring point to be subject to the restriction of instrument channel number, mostly be 12-16 passage most.And signal has decay, ultimate range is also with regard to 20 meters.The GIS many for interval, bus distance is longer, can not meet on-the-spot requirement far away.And adopt analyte test, and because the generation of the decomposition product that punctures rear SF6 needs a period of time, can not test immediately, and air chamber goes to measure one by one, be also not suitable for field requirement.

In recent years, some electric power research mechanisms had just been applicable to the technology and equipment of GIS defect location more effectively, easily in development research both at home and abroad.Main research method has following several: ultrasonic Detection Method, superfrequency detection method, decomposition gas detection method, the feature of all kinds of detection techniques is as shown in table 1.

Table 1, GIS partial discharges fault Study of location method:

Utility model content

The purpose of this utility model is, for the problems referred to above, proposes a kind of system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position, to realize the advantage that finds fast and accurately discharge position.

For achieving the above object, the technical solution adopted in the utility model is:

A kind of system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position, comprise the calibrate AE sensor, signal deteching circuit, signal processing circuit, electric power management circuit and the warning circuit that are close on GIS outer wall, described calibrate AE sensor signal passes to signal processing circuit through signal deteching circuit, described electric power management circuit provides direct supply, and described warning circuit is electrically connected with signal processing circuit;

Described signal deteching circuit comprises charge-voltage converting unit, pre-amplification unit, filter unit, rearmounted amplifying unit and RMS-DC converter unit; Connect successively in described charge-voltage converting unit, pre-amplification unit, filter unit, rearmounted amplifying unit and RMS-DC converter unit.

Further, described calibrate AE sensor adopts PVDF piezoelectric film material.

Further, described charge-voltage converting unit, comprise transport and placing device U8, resistance R 8, capacitor C 8, resistance R 18, capacitor C 7 and resistance R 6, described resistance R 8, capacitor C 8 and resistance R 18 are connected on the inverting input of transport and placing device U8, described resistance R 6 one end are connected on a node, the other end of resistance R 6 is connected with the output terminal of transport and placing device U8, and described capacitor C 7 one end are connected on b node, and the other end of this capacitor C 7 is connected with the output terminal of transport and placing device U8.

Further, described pre-amplification unit comprises transport and placing device U7, resistance R 26, resistance R 7 and adjustable resistance R29, described resistance R 26 is connected on the inverting input of transport and placing device U7, described resistance R 7 one end are connected with the inverting input of transport and placing device U7, the other end of this resistance R 7 is connected with the output terminal of transport and placing device U7, described adjustable resistance R29 is offset compensation rheostat, two stiff ends of this adjustable resistance R29 are connected with two current potential adjustable sides of transport and placing device U7, and the adjustable end of this adjustable resistance R29 is connected with the positive voltage end of transport and placing device U7.

Further, described filter unit adopts the circuit of high-pass filtering circuit and low-pass filter circuit stack, described high-pass filtering circuit comprises transport and placing device U6B, capacitor C 41, capacitor C 42 and resistance R 21, described capacitor C 41 and capacitor C 42 are connected on the in-phase input end of transport and placing device U6B, and described resistance R 21 is connected between the inverting input of transport and placing device U6B and the output terminal of transport and placing device U6B;

Described low-pass filter circuit comprises transport and placing device U6A, capacitor C 39, capacitor C 37, capacitor C 40 and resistance R 5, described capacitor C 39 and capacitor C 37 are connected between the in-phase input end of transport and placing device U6A and the output terminal of transport and placing device U6A, described capacitor C 40 is connected with the output terminal of transport and placing device U6A, and described resistance R 5 is connected between the inverting input of transport and placing device U6A and the output terminal of transport and placing device U6A.

Further, described rearmounted amplifying unit comprises that transport and placing device U10, resistance R 62 and resistance R 61, described resistance R 62 are connected between the inverting input of transport and placing device U10 and the output terminal of transport and placing device U10, and described resistance R 61 is connected with the inverting input of transport and placing device U10.

Further, described RMS-DC converter unit adopts AD637 RMS-DC converter chip.

Further, described signal processing circuit adopts single-chip microcomputer.

The technical solution of the utility model has following beneficial effect:

The technical solution of the utility model adopts calibrate AE sensor, signal deteching circuit, signal processing circuit, electric power management circuit and warning circuit, signal processing circuit to detect GIS partial discharge position, realizes the object that finds fast and accurately discharge position.

The advantages such as the ultrasonic probe that PVDF piezoelectric film material is made has highly sensitive, overload-resistant, and anti-interference is good, easy and simple to handle, volume is little, lightweight.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Brief description of the drawings

Fig. 1 is existing GIS air bound unit construction principle schematic diagram;

Fig. 2 is GIS drum Structural Analysis Model middle probe placement location schematic diagram;

Fig. 3 a to Fig. 3 g is acoustic pressure and the frequency relation variation diagram that in figure, middle probe A point is ordered to G;

Fig. 4 is the system principle diagram based on flexible piezoelectric membraneous material monitoring GIS partial discharge position described in the utility model embodiment;

Fig. 5 is that GIS partial discharge position detects schematic diagram;

Fig. 6 is the electronic circuitry of the charge-voltage converting unit described in the utility model embodiment;

Fig. 7 is the electronic circuitry of the pre-amplification unit described in the utility model embodiment;

Fig. 8 is the electronic circuitry of the high-pass filtering circuit described in the utility model embodiment;

Fig. 9 is the electronic circuitry of the low-pass filter circuit described in the utility model embodiment;

Figure 10 is the electronic circuitry of the rearmounted amplifying unit described in the utility model embodiment;

Figure 11 is the electronic circuitry of the RMS-DC converter unit described in the utility model embodiment;

Figure 12 is the electronic circuitry of the 5v power-switching circuit described in the utility model embodiment;

Figure 13 is the electronic circuitry of the 3.3v power-switching circuit described in the utility model embodiment;

Figure 14 is described in the utility model embodiment-electronic circuitry of 5v power-switching circuit;

Figure 15 is the electronic circuitry of the warning circuit described in the utility model embodiment.

By reference to the accompanying drawings, in the utility model embodiment, Reference numeral is as follows:

1-conducting rod; 2-disc insulator; 3-GIS shell; 4-fault gas chamber; 5-epoxy disk insulator; 6-aluminium alloy cylinder bucket; 7-metal conducting bar; 8-sulfur hexafluoride gas; 9-sound source.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described, should be appreciated that preferred embodiment described herein is only for description and interpretation the utility model, and be not used in restriction the utility model.

In order to study the sound field distribution character inside and outside GIS drum structure in great detail, place probe in analytical model the acoustic pressure of calculating this point, in frequency range, the acoustic pressure of calculating different measuring position distributes.Probe placement location as shown in Figure 2.Wherein A, C, G are positioned at the outside surface of aluminium alloy drum, and A, G be positioned at the upper and lower of point sound source, and C is positioned at the upper left side away from sound source.E, F lay respectively at the surfaces externally and internally of insulator, and B is positioned at sealed aluminum alloy drum inside surface.D is positioned at the position near sound source and conducting rod.

Can find out by upper Fig. 3 a and Fig. 3 g, the GIS inside and outside acoustical signal regularity of distribution is as follows:

1) the inside and outside acoustic pressure of GIS housing distributes

Contrast A, the sound pressure level that B is 2, it is little that the acoustic pressure that A is ordered is ordered than B, (10-30kHz) differ greatly (80-100dB) in low-frequency range, and the acoustic pressure that the acoustic pressure of ordering at high frequency (40-200kHz) A and B are ordered differs and is reduced to 20-40dB, this shows acoustic ratio aluminum alloy casing outside surface large of aluminum alloy casing inside surface, with respect to the sound pressure of directly measuring electric discharge in inside, in GIS shell, measure electric discharge and need more highly sensitive sensor, or the signal of case surface need to be amplified, could obtain with the sound intensity of internal measurement at the same order of magnitude.

2) GIS surface of shell acoustic pressure distributes

The sound pressure level that contrast A, C, G are 3, can find out that acoustic pressure that A order is than C point large (about 2-10dB), and this illustrates that sound wave propagates and decay in solid aluminium alloy shell.Signal magnitude by ultrasonic sensor can be along the distance of the qualitative confirmation sensor distance electric discharge of GIS bucket wall sound source.Secondly the acoustic pressure that A is ordered is compared with G point, substantially close, and on the radial direction of this explanation same position on GIS aluminum alloy casing, the signal that sensor obtains is substantially equal, can not distinguish the position of electric discharge sound source.

3) insulating basin both sides acoustic pressure distributes

The sound pressure level that contrast E, F are 2, in low frequency (1-20kHz) scope, can find out that acoustic pressure that F orders is more than E point little (decay approaches 120dB), but in ultrasonic (20-200kHz) scope, although the acoustic pressure that F is ordered is less than E point, but about 50dB that only decayed, this shows that the audio frequency sound that sends of electric discharge, after epoxy insulation, decays very serious.

4) the inner acoustic pressure of GIS distributes

Contrast is positioned at the sound pressure level of D, the E of airtight sound field equally at 2, can find out that acoustic pressure that D order is more than E point (about 3-5dB) greatly, and this sound wave sending that shows to discharge is propagated in sulfur hexafluoride gas, has certain decay.

As shown in Figure 4, a kind of system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position, comprise the calibrate AE sensor, signal deteching circuit, signal processing circuit, electric power management circuit and the warning circuit that are close on GIS outer wall, calibrate AE sensor signal passes to signal processing circuit through signal deteching circuit, electric power management circuit provides direct supply, and warning circuit is electrically connected with signal processing circuit;

Signal deteching circuit comprises charge-voltage converting unit, pre-amplification unit, filter unit, rearmounted amplifying unit and RMS-DC converter unit; Connect successively in charge-voltage converting unit, pre-amplification unit, filter unit, rearmounted amplifying unit and RMS-DC converter unit.

Calibrate AE sensor adopts PVDF piezoelectric film material.Be distributed in multiple air chambers of GIS.This PVDF piezoelectric membrane be a kind of film of 3-tier architecture, the upper and lower surface of PVDF sense core has covered very thin aluminium electrode, thickness is 230 microns, in practice, the shape of PVDF piezoelectric membrane as required and cutting, this will certainly cause that film edge has flaw, thereby and be easily subject to extraneous electronic interferences and cause the inaccurate of measurement, affect the effect of its detection.Therefore,, in order to improve permanance and the stability of piezoelectric membrane, PVDF piezoelectric membrane must be through encapsulation.

Utilize the technical process of PVDF Piezoelectric Film for Designing Sensor to be mainly divided into: determine required form, cutting, edge treated, non-metallic edge, extraction electrode and add protective seam.

(1) edge treated

PVDF piezoelectric membrane is cut into the rectangular shape of 3cm*1cm, and in cutting process, on the edge of aluminium electrode, be easy to stay many metal burrs, can cause like this PVDF piezoelectric membrane to be short-circuited on thickness direction, then affected the working effect of sensor.So when PVDF piezoelectric membrane is carried out to cutting, the flatness at edge is very important.In order to prevent that burr from exerting an influence to detecting effect, adopt acetone and alcohol as mordant, erode the electrode burr that film edge may be communicated with, with regard to having completed, the edge of PVDF piezoelectric membrane is done to non-metallic processing like this, finally detect film with multimeter and whether be short-circuited on thickness, to ensure the effect of corrosion.

(2) draw wire

Because the thickness of PVDF piezoelectric membrane is very little, and flexibility is very large, and the electrode on surface is very thin, so modes such as conventional welding be not suitable for PVDF piezoelectric membrane.In the technical program, in order to prevent going wrong because the impact of lead contact makes sensor, be two pole-faces up and down of sensor in the same way coplanar draw, like this, can conveniently draw the connection of wire and shielding line, then can ensure that charge signal enters modulate circuit uninterruptedly going up to greatest extent.The mode adopting is in laboratory, to hold facile penetration, uses two kinds of modes of crimp type terminal crimping and hollow little rivet.

(3) add protective seam

Destroyed for fear of electrode, and prevent that sensor is subject to the interference of outside noise, be very necessary for sensor adds protective seam.Because PVDF piezoelectric membrane is the membraneous material of excellent elasticity, and piezoelectric can produce stronger signal in the time being subject to larger strain, be convenient to like this receive, so the material of encapsulation must have enough elasticity, just can not affect the performance of sensor, ensure that sensor can transmit the information of sensing to greatest extent; Moreover PVDF piezoelectric membrane is the sensor that belongs to high internal resistance weak signal, because of its sensitivity very high, so disturbance reponse to external world is very obvious, for example people's one's voice in speech signal, power frequency component etc.So this has also required the insulating property of encapsulating material to want good; Finally, because the thickness of PVDF piezoelectric membrane is very little, so can not be thick to the material of thin-film package, ensure the superior function of sensor.By above-mentioned analysis, what the technical program was chosen the encapsulating material of sensor is UV resin, and pasting up and down a layer thickness at membraneous material is the polyethylene film of 8 microns, then irradiates with ultraviolet light, and after solidifying, effect is fine.On the other hand, in order to prevent that the wire that draws on surface is damaged and causes sensor loose contact and the signal in order to ensure that PVDF piezoelectric film sensor also can stable output in bending, covers with silica gel in the junction of electrode and lead-in wire.For useful area and the extraction electrode part of film, select separate packages, because both thickness differences, in order to reduce to greatest extent outside interference, ensure the stability of output signal, the better effects if of separate packages.

(4) electromagnetic screen problem

Because the person's character of piezoelectric membrane is capacitive, so anti-electromagnetic interference (EMI) is indifferent, very high or can not consider in the less demanding situation of data precision in output signal.But, in the technical program, to learn by experiment, the order of magnitude of the ultrasonic signal recording is for millivolt level, so need to take measures to shield for electromagnetic interference (EMI).The measure of taking is to add shielding device and use concentric cable.Need to be main, the connection of lead-in wire and concentric cable must be reinforced, and prevents from bringing sound interference because of vibration to sensor.

The key property index of the sensor of made is in table two,

Table two, sensor main performance index table:

As shown in Figure 6, charge-voltage converting unit, comprise transport and placing device U8, resistance R 8, capacitor C 8, resistance R 18, capacitor C 7 and resistance R 6, resistance R 8, capacitor C 8 and resistance R 18 are connected on the inverting input of transport and placing device U8, resistance R 6 one end are connected on a node, the other end of resistance R 6 is connected with the output terminal of transport and placing device U8, and capacitor C 7 one end are connected on b node, and the other end of this capacitor C 7 is connected with the output terminal of transport and placing device U8.

PVDF piezoelectric film sensor belongs to capacitive sensor, and its output signal is and input ultrasonic vibration signal proportional quantity of electric charge, and in side circuit, the quantity of electric charge is because impedance is too high and cannot direct-detection.Only have the quantity of electric charge is converted to the further detection of corresponding voltage, designed this charge-voltage converting circuit for this reason.This charge-voltage converting circuit is made up of operational amplifier LF356N, precision resistance, polystyrene electric capacity etc., wherein, LF356N operational amplifier has the advantages such as the long-pending and large DC voltage gain of high input impedance, low imbalance and bias voltage, high cmrr, high gain-bandwidth.Be suitable for very much charge-voltage converting circuit.

In order to ensure charge-voltage converting circuit conversion precision, while selecting corresponding feedback capacity and resistance, must choose high-precision capacitance resistance.Here select metal thin film resistor and accurate polystyrene electric capacity, precision is 0.5%.

Wherein, the response of the value decision-making circuit of resistance R 18 to high-frequency signal; The features of response of the value decision-making circuit of resistance R 6 to low frequency signal.Capacitor C 7 is feedback capacity.

As shown in Figure 7, pre-amplification unit comprises transport and placing device U7, resistance R 26, resistance R 7 and adjustable resistance R29, resistance R 26 is connected on the inverting input of transport and placing device U7, resistance R 7 one end are connected with the inverting input of transport and placing device U7, the other end of this resistance R 7 is connected with the output terminal of transport and placing device U7, adjustable resistance R29 is offset compensation rheostat, two stiff ends of this adjustable resistance R29 are connected with two current potential adjustable sides of transport and placing device U7, and the adjustable end of this adjustable resistance R29 is connected with the positive voltage end of transport and placing device U7.

Through after charge-voltage converting, complete impedance transformation and the signal conversion of signal, charge signal is converted to corresponding voltage signal.But due to conversion after signal a little less than, in order to obtain higher signal to noise ratio (S/N ratio), need carry out certain pre-amplification processing to this signal.Useful signal is amplified, for follow-up filtering processing lays the foundation.

Pre-amplification circuit design mainly should be considered amplifier characteristic.The amplifier chip that the technical program design is chosen is LF356N, and it has gain bandwidth product 5MHZ, high input impedance, the advantages such as low biasing and offset voltage.Particularly gain bandwidth product meets the actual requirement of pre-amplification circuit.Be pre-amplification circuit chip so choose this amplifier.In circuit design, adopt the reverse ratio amplifying circuit of standard, enlargement factor is 2 times.In, resistance R 7 is feedback resistance, adjustable resistance R29 is offset compensation rheostat, regulates zero-bit output.Capacitor C 36, capacitor C 38 is power filtering capacitor.

When signal acquisition circuit, not only to consider how to collect useful signal, also will consider that how filtering is from problems such as the noise jamming of on-the-spot and circuit itself.GIS equipment uses work on the spot circumstance complication, various noises as mechanical vibration, impact, personnel activity's sound and from the power frequency interference of circuit etc. invariably normal to equipment, accurately work impacts.Disturb special design signal filter circuit in order to eliminate from on-the-spot high and low frequency.

Filtering circuit is mainly considered content in the time of design:

First, effective filtering of filtering circuit to low-frequency disturbance.Also have in outdoor mounted because GIS equipment is existing indoor, when GIS work, ambient noise cannot shield, if not in testing circuit by the effective filtering of these environmental interference signals, will have influence on the work of GIS arcing fault positioning detector, and then cause the misoperation of GIS arcing fault steady arm.

Secondly, effective filtering of filtering circuit to electromagnetic wave signal.GIS arcing fault not only produces a large amount of low-frequency signal components while generation, has also produced a large amount of high-frequency electromagnetic wave components.Probe in process and find in actual tests, the cable that detecting sensor is drawn, just as an antenna, has been incorporated into electromagnetic wave signal in testing circuit, also wants effective filtering just can avoid the distortion of signals collecting to this undesired signal.

In sum, in filtering circuit design, select high-pass filtering circuit and low-pass filter circuit stack and formed bandwidth-limited circuit.Every one-level filtering circuit exponent number is designed to second-order circuit, so that filtering circuit attenuation multiple is at 40dB, effectively filtered signal disturbs, and filtering circuit design is as follows:

Filter unit adopts the circuit of high-pass filtering circuit and low-pass filter circuit stack, as shown in Figure 8, high-pass filtering circuit comprises transport and placing device U6B, capacitor C 41, capacitor C 42 and resistance R 21, and capacitor C 41 and capacitor C 42 are connected on the in-phase input end of transport and placing device U6B, and resistance R 21 is connected on transport and placing device.

Amplifier is chosen TL062C, and this amplifier is high speed amplifier, and Slew Rate 3.5V/us is suitable as filtering circuit amplifier.

As shown in Figure 9, low-pass filter circuit comprises transport and placing device U6A, capacitor C 39, capacitor C 37, capacitor C 40 and resistance R 5, capacitor C 39 and capacitor C 37 are connected between the in-phase input end of transport and placing device U6A and the output terminal of transport and placing device U6A, capacitor C 40 is connected with the output terminal of transport and placing device U6A, and resistance R 5 is connected between the inverting input of transport and placing device U6A and the output terminal of transport and placing device U6A.

Wherein, C2, C3 is the network label of different resistances in low-pass filter circuit.Represent that numerical value is 30K, 20K, 10K, 6.2K, 3K.Respective signal cutoff frequency is: 995.2Hz, 4.9KHz, 9.6KHz, 19.6KHz, 30KHz.

Reverse input end signal amplification factor:

C35, C37 is electric source filter circuit.Filter out power noise jamming.

Signal amplitude is after filtering less, in order to improve the range of detection signal, need further amplify signal.Enlargement factor is determined need to consider amplifier gain bandwidth product.LF356N amplifier gain bandwidth product is at 5MHZ, completely no problem for 10 times of amplifications of signal, so determine that rearmounted amplifying circuit enlargement factor is 10 times herein.

As shown in figure 10, rearmounted amplifying unit comprises that transport and placing device U10, resistance R 62 and resistance R 61, resistance R 62 are connected between the inverting input of transport and placing device U10 and the output terminal of transport and placing device U10, and resistance R 61 is connected with the inverting input of transport and placing device U10.

Resistance R 62 is feedback resistance, and resistance R 63 is zero-bit output regulator potentiometer, capacitor C 44, and capacitor C 43 is power filtering capacitor.

As shown in figure 11, be still bipolar signal through the signal after rearmounted amplifying circuit, for the ease of single-chip microcomputer acquisition and processing, signal is carried out to RMS-DC converter processing simultaneously, select AD637 RMS-DC converter chip to form RMS-DC converter circuit.

Capacitor C 17 is external capacitive, in order to the setting signal length of averaging time.The technical program is selected the little electric capacity of 1nF, is convenient to capture the signal of transient change.Capacitor C 14 is capacitance, excludes the direct current biasing signal producing after rearmounted amplification.

Resistance R 16, capacitor C 16 is passive low-pass filter unit.AD637 output signal is carried out to low-pass filtering treatment.Make output signal more level and smooth.

Signal processing circuit is mainly made up of single-chip microcomputer.The function mainly completing has: the processing of signal A/D conversion, image data etc.And connect display unit.

Electric power management circuit

Signal processing circuit adopts rechargeable battery powered, and supply voltage is at 7.2V.Because inner integrated chip operating voltage is+5V ,+3.3V etc., so need to carry out voltage transitions to input power, as shown in figure 12, LM2940 has the function of power supply conversion, can realize the voltage transitions of input 6.25V～26V scope to be+Voltage-output of 5V.Output current exceedes 1A simultaneously, can be to meet this circuit requirement.And its working temperature and storage temperature are all at-40oC～85oC, meet industrial requirements.It should be noted that and pass through resistance R 14 herein, resistance R 15 will be separated in analog and digitally, has avoided interference each other.Electric capacity plays filtering here.

As shown in figure 13, the functional similarity of ASM1117 chip and LM2940 chip, has played the effect of power supply conversion.Because C8051 operating voltage range is at 2.7V～3.6V, needing the voltage transitions of+5V is+3.3V, and electric capacity here strobes.To distinguish mutually in analog with digitally by resistance R 16.LED0 is circuit working state pilot lamp, and the bright indication circuit of LED is normally worked, and does not work and shows circuit existing problems, needs to check.

As shown in figure 14, because front end simulation amplifier adopts dual power supply, needs-5V voltage.Therefore adopt LMC7660IM voltage transitions chip, realization general+5V voltage transitions is-5V voltage.The effect of electric capacity is also filtering.

Warning circuit, as shown in figure 15, reaches after certain amplitude at tested signal, and need to adopt and light with LED, the mode that output light is reported to the police, prompting staff checks tested section, the I/O interface that the p2.3 in figure is single-chip microcomputer.

Finally it should be noted that: the foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, although the utility model is had been described in detail with reference to previous embodiment, for a person skilled in the art, its technical scheme that still can record aforementioned each embodiment is modified, or part technical characterictic is wherein equal to replacement.All within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (8)

1. the system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position, it is characterized in that, comprise the calibrate AE sensor, signal deteching circuit, signal processing circuit, electric power management circuit and the warning circuit that are close on GIS outer wall, described calibrate AE sensor signal passes to signal processing circuit through signal deteching circuit, described electric power management circuit provides direct supply, and described warning circuit is electrically connected with signal processing circuit;

Described signal deteching circuit comprises charge-voltage converting unit, pre-amplification unit, filter unit, rearmounted amplifying unit and RMS-DC converter unit; Connect successively in described charge-voltage converting unit, pre-amplification unit, filter unit, rearmounted amplifying unit and RMS-DC converter unit.

2. the system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position according to claim 1, is characterized in that, described calibrate AE sensor adopts PVDF piezoelectric film material.

3. the system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position according to claim 1 and 2, it is characterized in that, described charge-voltage converting unit, comprise transport and placing device U8, resistance R 8, capacitor C 8, resistance R 18, capacitor C 7 and resistance R 6, described resistance R 8, capacitor C 8 and resistance R 18 are connected on the inverting input of transport and placing device U8, described resistance R 6 one end are connected on a node, the other end of resistance R 6 is connected with the output terminal of transport and placing device U8, described capacitor C 7 one end are connected on b node, and the other end of this capacitor C 7 is connected with the output terminal of transport and placing device U8.

4. the system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position according to claim 1 and 2, it is characterized in that, described pre-amplification unit comprises transport and placing device U7, resistance R 26, resistance R 7 and adjustable resistance R29, described resistance R 26 is connected on the inverting input of transport and placing device U7, described resistance R 7 one end are connected with the inverting input of transport and placing device U7, the other end of this resistance R 7 is connected with the output terminal of transport and placing device U7, described adjustable resistance R29 is offset compensation rheostat, two stiff ends of this adjustable resistance R29 are connected with two current potential adjustable sides of transport and placing device U7, the adjustable end of this adjustable resistance R29 is connected with the positive voltage end of transport and placing device U7.

5. the system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position according to claim 1 and 2, it is characterized in that, described filter unit adopts the circuit of high-pass filtering circuit and low-pass filter circuit stack, described high-pass filtering circuit comprises transport and placing device U6B, capacitor C 41, capacitor C 42 and resistance R 21, described capacitor C 41 and capacitor C 42 are connected on the in-phase input end of transport and placing device U6B, and described resistance R 21 is connected between the inverting input of transport and placing device U6B and the output terminal of transport and placing device U6B;

Described low-pass filter circuit comprises transport and placing device U6A, capacitor C 39, capacitor C 37, capacitor C 40 and resistance R 5, described capacitor C 39 and capacitor C 37 are connected between the in-phase input end of transport and placing device U6A and the output terminal of transport and placing device U6A, described capacitor C 40 is connected with the output terminal of transport and placing device U6A, and described resistance R 5 is connected between the inverting input of transport and placing device U6A and the output terminal of transport and placing device U6A.

6. the system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position according to claim 1 and 2, it is characterized in that, described rearmounted amplifying unit comprises that transport and placing device U10, resistance R 62 and resistance R 61, described resistance R 62 are connected between the inverting input of transport and placing device U10 and the output terminal of transport and placing device U10, and described resistance R 61 is connected with the inverting input of transport and placing device U10.

7. the system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position according to claim 1 and 2, is characterized in that, described RMS-DC converter unit adopts AD637 RMS-DC converter chip.

8. the system based on flexible piezoelectric membraneous material monitoring GIS partial discharge position according to claim 1 and 2, is characterized in that, described signal processing circuit adopts single-chip microcomputer.