CN205176208U - Partial discharge data acquisition circuit and monitoring facilities - Google Patents

Abstract

The utility model provides a partial discharge data acquisition circuit and monitoring facilities is suitable for the collection office to put signal input to partial discharge monitoring equipment, include: acquisition unit is suitable for and gathers voltage power frequency signal, comparing element, it is voltage signal to be suitable for electric current signal conversion, and predetermines benchmark voltage signal and relatively, generates correspondingly pulse signal, the filtering unit is suitable for and carries out filtering to voltage signal to reaching pulse signal and carrying out filtering, the signal is put in output office, predetermine the unit, its output with comparing element's input links to each other, be suitable for to comparing element provides and predetermines reference voltage signal. Through set up the filtering unit separately after, before the comparator, can effectively avoid the shock the that relatively fore -and -after brought at voltage signal, realize low pass filter, greatly improved the interference killing feature of gathering power frequency signal through this acquisition circuit.

Description

Partial Discharge Data Acquisition Circuit and monitoring equipment

Technical field

The utility model belongs to power cable insulation detection field, particularly relates to one and is applied to high-frequency local discharging data acquisition circuit and monitoring equipment.

Background technology

In recent years, a large amount of employing power cable power transmission and distribution in urban distribution network.Cable has become the leading products of transferring electric power in city.Due to the insulating material characteristic of cable, the reason such as manufacturing process, operating technique of cable causes producing various insulation defect in the middle of the operational process of power cable and causes shelf depreciation.After it uses certain time limit, shelf depreciation continues to develop into and to a certain degree causes insulation breakdown and cause electrical network major accident.Thus the research of crosslinking polyethylene-insulated cable insulation defect detection method for local discharge is just seemed particularly urgent, in time, cable insulation hidden danger is detected exactly, just can take necessary counter-measure in time, the economic loss that minimizing burst accident etc. brings is of great practical significance.

Shelf depreciation, abbreviation office puts, and be the operating larger potential safety hazard of power cable, being the sign of cable insulation deterioration, is also one of major reason causing insulation degradation.Therefore carry out the research of local discharge signal detection and positioning to power cable to have great significance and economic worth.Relevant local discharge signal testing standard has all been formulated in IEC and countries in the world, by the weak link in the detection Timeliness coverage insulation system of local discharge signal, finds out failure cause, ensures power cable quality, ensure power system security reliability service.

Existing high-frequency local discharging monitoring equipment is for realizing the monitoring to the shelf depreciation situation of the equipment such as GIS, transformer in high pressure power transmission and distribution transformer station.When there is partial discharge phenomenon in equipment, ultrahigh-frequency signal can be produced, the detection of sensor is put by office, high-frequency signal is carried out analog to digital conversion and analytic operation, in Partial discharge signal collecting unit, the discharge pulse signal collected is superimposed on the operating frequency phase of detection line, obtains corresponding office and put impulse phase collection of illustrative plates, put generation equipment deficiency kind to analyze the office of causing.Therefore, it is very crucial for gathering power frequency component, but existing large-scale substation basic setup out of doors, causes monitoring equipment to be also positioned in open air, inevitably there is electromagnetic interference (EMI), result in the instability gathering power frequency component.

Utility model content

The shortcoming of prior art in view of the above, the purpose of this utility model is to provide a kind of Partial Discharge Data Acquisition Circuit and monitoring equipment, for to solve in prior art out of doors surveillance equipment time, because there is electromagnetic interference (EMI), cause the problem gathering power frequency component instability.

For achieving the above object and other relevant objects, the utility model provides a kind of Partial Discharge Data Acquisition Circuit, is suitable for gathering Partial discharge signal and is input to partial discharge monitoring equipment, at least comprise:

Collecting unit, is suitable for gathering voltage power frequency component;

Comparing unit, is suitable for current signal to be converted to voltage signal, compares with preset reference voltage signal, generate correspondingly pulse signal;

Filter unit, be suitable for carrying out filtering to voltage signal, and pulse signal carries out filtering, exports Partial discharge signal;

Preset unit, its output terminal is connected with the input end of described comparing unit, and being suitable for provides preset reference voltage signal to described comparing unit.

Preferably, described collecting unit comprises voltage transformer (VT) and sampling resistor, and described sampling resistor connects described voltage transformer (VT), and described sampling resistor is suitable for rated voltage to be converted to current signal, exports described voltage transformer (VT) to.

Preferably, described comparing unit comprises comparer and sample resistance, and the output terminal of described collecting unit connects the input end of described comparer by described sample resistance, and the output terminal of described comparer exports Partial discharge signal.

Preferably, described filter unit comprises the first wave filter and the second wave filter, and the input end of described first wave filter connects the output terminal of described voltage transformer (VT) by sample resistance; The output terminal of described first wave filter connects the input end of described comparer, and the output terminal of described comparer connects the input end of described second wave filter, and its output terminal exports Partial discharge signal.

Preferably, described first wave filter and described second wave filter are RC wave filter.

Preferably, described default unit comprises voltage follower and operational amplifier, and the output terminal of described voltage follower connects described opamp input terminal, and the output terminal of described operational amplifier connects the input end of described comparing unit.

Another object of the present utility model is to provide a kind of partial discharge monitoring equipment adopting Partial Discharge Data Acquisition Circuit.

As mentioned above, Partial Discharge Data Acquisition Circuit of the present utility model and monitoring equipment, have following beneficial effect:

By setting up filter unit separately comparer is forward and backward, the concussion brought before and after voltage signal compares effectively can be avoided; Realize low-pass filtering, meanwhile, partial discharge monitoring equipment is arranged on out of doors, greatly improved the antijamming capability gathering power frequency component by this Acquisition Circuit.

Accompanying drawing explanation

Fig. 1 is shown as Partial Discharge Data Acquisition Circuit structured flowchart of the present utility model;

Fig. 2 is shown as the circuit diagram of Partial Discharge Data Acquisition Circuit of the present utility model.

Element numbers illustrates:

1 collecting unit

2 comparing units

3 filter units

4 preset unit

R1 ~ R12 resistance

C1 ~ C2 electric capacity

31 first wave filters

32 second wave filters

D1 schottky diode

T1 operational amplifier

T2 comparer

TV1 mutual induction of voltage

Embodiment

Below by way of specific instantiation, embodiment of the present utility model is described, those skilled in the art the content disclosed by this instructions can understand other advantages of the present utility model and effect easily.The utility model can also be implemented or be applied by embodiments different in addition, and the every details in this instructions also can based on different viewpoints and application, carries out various modification or change not deviating under spirit of the present utility model.It should be noted that, when not conflicting, the feature in following examples and embodiment can combine mutually.

It should be noted that, the diagram provided in following examples only illustrates basic conception of the present utility model in a schematic way, then only the assembly relevant with the utility model is shown in graphic but not component count, shape and size when implementing according to reality is drawn, it is actual when implementing, and the kenel of each assembly, quantity and ratio can be a kind of change arbitrarily, and its assembly layout kenel also may be more complicated.

Refer to Fig. 1, for the utility model provides a kind of Partial Discharge Data Acquisition Circuit structured flowchart, comprising:

Collecting unit 1, is suitable for gathering voltage power frequency component;

Comparing unit 2, is suitable for current signal to be converted to voltage signal, compares with preset reference voltage signal, generate correspondingly pulse signal;

Filter unit 3, be suitable for carrying out filtering to voltage signal, and pulse signal carries out filtering, exports Partial discharge signal;

Preset unit 4, its output terminal is connected with the input end of described comparing unit, and being suitable for provides preset reference voltage signal to described comparing unit.

In the present embodiment, by setting up filter unit separately comparer is forward and backward, the concussion brought before and after voltage signal compares can effectively be avoided; Realize low-pass filtering, meanwhile, partial discharge monitoring equipment is arranged on out of doors, greatly improved the antijamming capability gathering power frequency component by this Acquisition Circuit.

As shown in Figure 2, for the utility model provides a kind of circuit diagram of Partial Discharge Data Acquisition Circuit, specific as follows:

Described collecting unit comprises voltage transformer (VT) and sampling resistor, and described sampling resistor connects described voltage transformer (VT), and described sampling resistor is suitable for rated voltage to be converted to current signal, exports described voltage transformer (VT) to.

Described sampling resistor is the resistance that four resistances are 100K ohm, by these four resistance R1 ~ R4 that connect, can 220V voltage signal be converted to small area analysis signal, input to voltage transformer (VT) TV1, wherein, large resistance of connecting adds input impedance, for the high tension voltage mutual inductance that front end connects, reduce bearing power, when larger resistance not only can reduce thunderbolt, surge impact is for the impact of back-end circuit.

Described voltage transformer (VT) TV1 is connected to the intermediate ends of four resistance, by internal electrical magnetic induction, front end current signal is converted to back end current signal and is used for collection signal, from but realize electrical isolation, effectively add the interference of electromagnetic pulse-resisting.

Preset unit 3 and comprise voltage follower and operational amplifier T1, the output terminal of described voltage follower connects described opamp input terminal, and the output terminal of described operational amplifier connects the input end of described comparing unit.

In the present embodiment, the chip of described voltage follower is the voltage that TL431 chip produces is 1.5V voltage reference, wherein, resistance R8, R9, R10, R11, R12 and schottky diode D3 form voltage follower, the voltage follower consisted of discharge circuit adds its driving force, improves the reference voltage of signal.

Described comparing unit comprises comparer and sample resistance, and the output terminal of described collecting unit connects the input end of described comparer by described sample resistance, and the output terminal of described comparer exports Partial discharge signal.

Wherein, described filter unit 3 comprises the first wave filter 31 and the second wave filter 32, and the input end of described first wave filter 31 connects the output terminal of described voltage transformer (VT) VT1 by sample resistance R5; The output terminal of described first wave filter 31 connects the input end of described comparer T2, and the output terminal of described comparer T2 connects the input end of described second wave filter 32, and its output terminal exports Partial discharge signal.

Described first wave filter 31 is RC wave filter with described second wave filter 32.

In the present embodiment, described current signal is converted to voltage signal by sample resistance R5, by this voltage signal by the first wave filter (RC wave filter) filtering, wherein, comprise the 6th resistance R6 and become RC wave filter with the first capacitance group C1, by voltage (sine wave) signal of conversion compared with predeterminated voltage, export square-wave signal; By this square-wave signal by the second wave filter (RC wave filter) filtering, namely the low-pass filter that forms of the 7th resistance R7 and the second electric capacity C2, carries out filtering to the square wave inputted, and the 7th resistance R7 also current limiting effect; Avoid when short trouble appears in rear end, can not damage comparison device output terminal.

The utility model also comprises the partial discharge monitoring equipment adopting Partial Discharge Data Acquisition Circuit.

In sum, the utility model, by setting up filter unit separately comparer is forward and backward, effectively can avoid the concussion brought before and after voltage signal compares; Realize low-pass filtering, meanwhile, partial discharge monitoring equipment is arranged on out of doors, greatly improved the antijamming capability gathering power frequency component by this Acquisition Circuit.So the utility model effectively overcomes various shortcoming of the prior art and tool high industrial utilization.

Above-described embodiment is illustrative principle of the present utility model and effect thereof only, but not for limiting the utility model.Any person skilled in the art scholar all without prejudice under spirit of the present utility model and category, can modify above-described embodiment or changes.Therefore, such as have in art and usually know that the knowledgeable modifies or changes not departing from all equivalences completed under the spirit and technological thought that the utility model discloses, must be contained by claim of the present utility model.

Claims (7)

1. a Partial Discharge Data Acquisition Circuit, is suitable for gathering Partial discharge signal and is input to partial discharge monitoring equipment, it is characterized in that, at least comprise:

Collecting unit, is suitable for gathering voltage power frequency component;

Comparing unit, is suitable for current signal to be converted to voltage signal, compares with preset reference voltage signal, generate correspondingly pulse signal;

Filter unit, be suitable for carrying out filtering to voltage signal, and pulse signal carries out filtering, exports Partial discharge signal;

Preset unit, its output terminal is connected with the input end of described comparing unit, and being suitable for provides preset reference voltage signal to described comparing unit.

2. Partial Discharge Data Acquisition Circuit according to claim 1, it is characterized in that, described collecting unit comprises voltage transformer (VT) and sampling resistor, described sampling resistor connects described voltage transformer (VT), described sampling resistor is suitable for rated voltage to be converted to current signal, exports described voltage transformer (VT) to.

3. Partial Discharge Data Acquisition Circuit according to claim 2, it is characterized in that, described comparing unit comprises comparer and sample resistance, and the output terminal of described collecting unit connects the input end of described comparer by described sample resistance, and the output terminal of described comparer exports Partial discharge signal.

4. Partial Discharge Data Acquisition Circuit according to claim 3, is characterized in that, described filter unit comprises the first wave filter and the second wave filter, and the input end of described first wave filter connects the output terminal of described voltage transformer (VT) by sample resistance; The output terminal of described first wave filter connects the input end of described comparer, and the output terminal of described comparer connects the input end of described second wave filter, and its output terminal exports Partial discharge signal.

5. Partial Discharge Data Acquisition Circuit according to claim 4, is characterized in that, described first wave filter and described second wave filter are RC wave filter.

6. Partial Discharge Data Acquisition Circuit according to claim 1, it is characterized in that, described default unit comprises voltage follower and operational amplifier, the output terminal of described voltage follower connects described opamp input terminal, and the output terminal of described operational amplifier connects the input end of described comparing unit.

7. a partial discharge monitoring equipment, is characterized in that, comprises the Partial Discharge Data Acquisition Circuit described in above-mentioned any one claim.