CN202854315U - System for calibrating receiving performance of partial-discharge ultrahigh frequency detection device - Google Patents

Abstract

The utility model relates to a system for calibrating receiving performance of a partial-discharge ultrahigh frequency detection device, which comprises a giagahertz transverse electromagnetic cell (GTEM) transmission cell, a standard pulse generator, a measure and control computer and a high-speed broadband oscillator, wherein the above parts are sequentially connected with each other through a wire. The high-speed broadband oscillator transmits a branch signal to the GTEM transmission cell. The top of the GTEM transmission cell is provided with a special test window which is provided with a reference sensor and a tested sensor. The reference sensor and the tested sensor are respectively connected with the high-speed broadband oscillator. The utility model also relates to a calibration method which adopts the above system. The calibration system and the calibration method have the advantages of broadband property and low cost, which can be used for not only electromagnetic radiation sensitivity tests, but also electromagnetic radiation tests. Moreover, the above instruments adopted in the system and the method are simple to configure, low in cost and capable of being used for rapid and automatic tests.

Description

A kind of calibration system of partial-discharge ultrahigh-frequency checkout equipment receptivity

Technical field

The system that the utility model relates to a kind of employing gtem cell, superfrequency (UHF) the Partial Discharge Detection equipment (sensor, detection system) that is applicable to power transformer and gas insulation combination switchgear (GIS) shelf depreciation online measuring technique field is demarcated.

Background technology

Describe as an example of GIS example.In recent years, the application of GIS partial discharge monitoring system in electrical network is increasingly extensive, takes on a certain scale.Main test philosophy comprises superfrequency method (the English UHF of abbreviation), measurement bandwidth is between 300MHz～1500MHz, it has the characteristics such as antijamming capability is strong, sensitivity is high, and this contactless metering system is all safer for secondary device and testing staff, system architecture is simple, be particularly suitable for on-line monitoring, thereby compare to other detection method and have obvious advantage.A large amount of GIS inherent vice cases have been found by superfrequency on-line monitoring and live testing in all parts of the country in recent years, become the most important detection means of the online detection field of present GIS.

Summing up in recent years state's net and south net GIS office is placed on line monitoring system operating experience, find one of the critical bottleneck problem that the partial-discharge ultrahigh-frequency Technique Popularizing uses that affects of current existence, is exactly the problem of detection system standardization and standardization evaluation.

IEC, CIGRE do not issue the sensitivity check standard of superfrequency method at present.What the UHF Partial Discharge Detecting Technology detected is the electromagnetic wave signal of ultrahigh frequency band, because the electromagnetic spectrum that each discharge gives off distributes not quite identical, and superfrequency has decay to a certain degree in the inside cavity communication process, therefore, detected UHF signal and the testing result of traditional pulse current method are difficult to good corresponding, especially do not have the proportionate relationship determined in amplitude.Sensitivity to the superfrequency detection system can't be weighed with unified unit, numerical value.Each supplier causes the access quality inspection means imperfection of Subscriber Unit thus to the promise of sensitivity difference to some extent.Only limit to the routinely content of the test such as machinery, insulation and electromagnetic compatibility in the uniform requirement to this series products in all parts of the country, and shortage unification, science and the effective test evaluation methods such as the sensor characteristic of the characterization apparatus core capabilities of most critical, detection system sensitivity are in a space state.

Frequency sweep method is adopted in conventional transducer calibration more, and this also is metering field accepted standard method.Because the UHF signal that shelf depreciation produces is the transient pulse pattern, sweep check can't reflect accurately that sensor and detection system are for the receiving ability of transient signal, and shelf depreciation UHF signal has the spectrum component that enriches up to several GHz, the necessary microwave dark room cost of sweep-frequency measurement system is up to millions of units, and cost is extremely high.Therefore, it is both uneconomical to adopt classical frequency sweep scaling method to be applied to the demarcation of partial-discharge ultrahigh-frequency detecting sensor and detection system, also science not.

Adopt GTEM(GHz transverse electromagnetic wave) to carry out the electromagnetism test be a new technology of international electromagnetism field development in recent years.Because the broadband character (from the direct current to the microwave) of GTEM, low cost (a few percent of only suitable anechoic chamber, cost), both can be used for electromagnetic radiation sensitivity test (EMS test, also claim immunity experiment), can be used for again electromagnetic radiation test (EMI test), and the instrument configuration is simple, cost is cheap, can be used for fast and the characteristics of automatic test, so more and more be subject to international and domestic relevant person's attention.At present gtem cell be that a lot of testing agencies admit to small device application testing result's consistance in radio frequency testing, makes it become the testing scheme of ratio of performance to price the best.

The utility model content

Technical problem to be solved in the utility model just provides a kind of system of demarcating based on GTEM transmission cell, to superfrequency (UHF) the Partial Discharge Detection equipment (sensor, detection system) that is applicable to GIS shelf depreciation online measuring technique field.

Solve the problems of the technologies described above, the technical solution adopted in the utility model is as follows:

A kind of calibration system of partial-discharge ultrahigh-frequency checkout equipment receptivity, it is characterized in that: comprise the GTEM transmission cell, basic pulse generator, Measurement ﹠control computer and the high-speed wideband oscillograph that connect with wire successively, described high-speed wideband oscillograph also has shunting sign to transmit cell to GTEM in addition, described GTEM transmission cell has the special test window on the top, be placed with reference sensor and tested sensor, described reference sensor be connected sensor and be connected with described high-speed wideband oscillograph respectively.

Described reference sensor is short one pole probe antenna.

The calibration system principle

Basic pulse generator produces certain duty cycle pulse voltage signal, and this signal passes to the input end of gtem cell and the electric field of section's generation within it E _i(t), the output signal u of sensors coupled _o(t) can catch by the high-speed wideband oscillograph.

The receiving feature of tested sensor can represent by the voltage of its output and the ratio of incident electric field,

$H_{\mathrm{sens}}\left(f\right)=\frac{U_O\left(f\right)}{E_i\left(f\right)}---\left(1\right)$

U wherein _oBe u _o(t) FFT conversion, E _iBe E _i(t) FFT conversion, H _SensDimension be mm, so be called equivalent height.

The equivalent height of sensor has characterized it and has received under different frequency or the ability of radiation signal, and equivalent height is higher, then shows the incident electromagnetic wave for same intensity, and the level of its output is larger, and namely coupling ability is stronger.

At present, the electric field E of a certain position in the gtem cell _i(t) be difficult to Accurate Measurement, the utility model adopts the amplitude versus frequency characte of calculating sensor to be measured with reference to method, namely by the known reference antenna of transmission characteristic sensor to be measured is demarcated.As shown in Figure 2.

The signal that the accurate pulse producer of bidding is injected into gtem cell is V _i, the transfer function H of gtem cell _Cell, the transfer function H of reference antenna sensor _Ref, then the response signal of reference sensor is U _Or, the transmission characteristic H of calibration system _Sys,

Then the transfer function characteristics of sensor to be measured is:

$H_{\mathrm{sens}}=\frac{U_{\mathrm{Os}}}{E_I}=\frac{U_{\mathrm{MS}}}{H_{\mathrm{sys}}{E}_I}---\left(2\right)$

Here need not demarcate the incident electric field, but at first record reference probe for incident field E _IResponse V _Mr, then with installation of sensors to be measured in the transient measuring cell, measure its output V _Ms, the incident electric field can be expressed as so

$E_I=\frac{U_{\mathrm{Mr}}}{H_{\mathrm{sys}}{H}_{\mathrm{ref}}}---\left(3\right)$

Bring (2) formula into (1) and get final product to get the frequency response of tested sensor:

$H_{\mathrm{sens}}=\frac{U_{\mathrm{Ms}}}{U_{\mathrm{Mr}}}{H}_{\mathrm{ref}}---\left(4\right)$

Known by (4) formula, by the transfer function H of reference sensor _Ref, reference sensor and tested sensor can be tried to achieve the transfer function characteristics of sensor to be measured for the voltage responsive of injected pulse signal.

Be the frequency domain response H of the unnecessary measuring equipment of seeking knowledge with reference to one of benefit of method _Sys, because its impact for all measurements all is the same, and when getting ratio, fallen approximately.And this measuring technique is for incident wave E _IWave form distortion also insensitive because its effect all is identical for impact of dual mode measuring-signal.

2, gtem cell

The effect of gtem cell provides terminal electromagnetic transmission environment coupling, that can shield external disturbance, and its working band should cover the working band of superfrequency or tested sensor.

3, standard signal source

Requirement to the full sized pules source is: the pulse of generation has enough wide spectrum distribution, can effectively cover the rf frequency scope of superfrequency or concern; The impedance matching of impulse source internal resistance and gtem cell; Pulse duty factor should guarantee that at least the time interval between the double pulse signal is enough large, so that waveform does not occur twice electromagnetic wave signal in the front and back of tested sensors coupled is overlapping; Pulse amplitude is stablized controlled, and the instability of output signal is no more than 1%.

4, the selection of reference sensor

Reference sensor need to possess following characteristic: (1), receiving feature are known; (2) measurement bandwidth covers by the working band of calibration sensor; (3) little to tested electric field influence.

Here reference sensor we select short one pole probe antenna.Short one pole probe size is little, and is little to tested electric field influence; And short one pole probe has the characteristics of undistorted detection when receiving the transient field signal; Particularly simple in structure because of it, its theoretical receiving feature is studied more thoroughly, and has set up accurate mathematical model, and therefore the reference antenna sensor of detecting sensor is put in the office of being suitable as.

5, average equivalent height

In order to characterize the receiving feature of tested sensor in broadband, defined here at survey frequency (f ₁, f ₂) interior average equivalent height, namely in the test frequency range of regulation, the accumulative total mean value in each Frequency point equivalent height specifically is expressed as

$H_{\mathrm{mean}}=\frac{\underset{f_1}{\overset{f_2}{\mathrm{\Σ}}}H\left(f\right)}{N}---\left(5\right)$

Here N counts for the frequency sampling that participates in calculating.

Beneficial effect: calibration system and the method for partial-discharge ultrahigh-frequency checkout equipment receptivity of the present utility model, has broadband character (from the direct current to the microwave), low cost (a few percent of only suitable anechoic chamber, cost), both can be used for electromagnetic radiation sensitivity test (EMS test, also claim immunity experiment), can be used for again electromagnetic radiation test (EMI test), and the instrument configuration is simple, cost is cheap, can be used for fast and automatically test.At present gtem cell be that a lot of testing agencies admit to small device application testing result's consistance in radio frequency testing, makes it become the testing scheme of ratio of performance to price the best.

Description of drawings

Fig. 1 is the calibration system synoptic diagram of partial-discharge ultrahigh-frequency checkout equipment receptivity of the present utility model;

Fig. 2 is the transport function synoptic diagram of computation and measurement cell, sensor and measuring system, and wherein: a carries out preliminary survey with the canonical reference probe; B is to the test of unknown sensor characteristic.

Specific implementation method

As shown in Figure 1, the calibration system embodiment of partial-discharge ultrahigh-frequency checkout equipment receptivity of the present utility model, comprise the GTEM transmission cell, basic pulse generator, Measurement ﹠control computer and the high-speed wideband oscillograph that connect with wire successively, the high-speed wideband oscillograph also has shunting sign to transmit cell to GTEM in addition, GTEM transmission cell has the special test window on the top, be placed with reference sensor and tested sensor, reference sensor be connected sensor and be connected with the high-speed wideband oscillograph respectively, the reference sensor of present embodiment is short one pole probe antenna.

As shown in Figure 2, adopt said system to carry out the scaling method of partial-discharge ultrahigh-frequency checkout equipment receptivity, may further comprise the steps:

S1 at first tests and records reference sensor-weak point one pole probe antenna for incident field E _IResponse V _Mr

Then S2 has the special test window with installation of sensors to be measured to GTEM transmission cell top, measure its output V _Ms

The frequency response of the tested sensor of S3:

$H_{\mathrm{sens}}=\frac{U_{\mathrm{Ms}}}{U_{\mathrm{Mr}}}{H}_{\mathrm{ref}}$

S4 is at survey frequency (f ₁, f ₂) interior selecting frequency sampling number N, repeating step S2 and S3 N time altogether get each Frequency point and get equivalent height;

The receiving feature of the tested sensor of S5 in broadband defined here at survey frequency (f ₁, f ₂) interior average equivalent height, namely in the test frequency range of regulation, the accumulative total mean value in each Frequency point equivalent height specifically is expressed as

$H_{\mathrm{mean}}=\frac{\underset{f_1}{\overset{f_2}{\mathrm{\Σ}}}H\left(f\right)}{N}---\left(5\right)$

Here N counts for the frequency sampling that participates in calculating.

Wherein:

The installation of sensor to be measured

The usage of traditional gtem cell is the inside that determinand is positioned over gtem cell, utilizes the environment of its sealing to measure.The utility model is considered the applied environment condition of sensor, has opened a special test window at the top of gtem cell, and sensor to be measured is positioned over the electromagnetic wave of test window to accept to propagate out.

(2), test data sheet signal

After determining to connect all cables and equipment, give system power supply, in the output signal access gtem cell with simulation signal generator, it is triggered mode of operation that oscillograph is set, the synchronous recording sensor output signal, and be uploaded in the computing machine and process.

(3), sensor equivalence high measure

The data upload of high-speed wideband oscillograph recording is to computing machine, and the frequency response curve peace that calculates sensor to be measured by the test philosophy that the utility model proposes is all highly equivalent.

Claims (2)

1. the calibration system of a partial-discharge ultrahigh-frequency checkout equipment receptivity, it is characterized in that: comprise the GTEM transmission cell, basic pulse generator, Measurement ﹠control computer and the high-speed wideband oscillograph that connect with wire successively, described high-speed wideband oscillograph also has shunting sign to transmit cell to GTEM in addition, described GTEM transmission cell has the special test window on the top, be placed with reference sensor and tested sensor, described reference sensor be connected sensor and be connected with described high-speed wideband oscillograph respectively.

2. the calibration system of partial-discharge ultrahigh-frequency checkout equipment receptivity according to claim 1 is characterized in that: described reference sensor is short one pole probe antenna.

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