RU186984U1 - Partial discharge measuring device, taking into account the influence of a power source, included in the grounding branch of the test object - Google Patents

Abstract

The utility model relates to the field of electric power. The partial discharge measuring device, taking into account the influence of the power source, contains a recording device, which consists of a signal amplifier, an oscilloscope and a converter unit containing an element for decoupling inductance (L), an element for determining the correction factor of the PD (K), and an element for determining the value of the signal from the PD without the influence of the power source (di), while this device is included in the ground branch of the test object through a high-frequency current transformer, and the magnitude of the signal from the PD (surge current) when the power source is affected, di is measured in the element for determining an increased signal from the PD included in the converter unit, when the power source (di) is affected by the following formula: where di = 411, di = 76 mA, x0 = -4.2 and dx = 0.42 are constant coefficients and (L) the decimal logarithm of the inductance L. The technical result is to increase the reliability and information content of the isolation state of high-voltage electrical equipment and ensure energy efficiency and safety of operation of the test objects by the method of partial series by taking into account the influence of the inductance "decoupling" the shape and size of the PD signal when the operational control of high voltage insulation of electrical lumped through a measuring device in the secondary high-frequency current transformer branch (VCHTT) standing sequentially from the ground to the object tested. 1 ill.

Description

The utility model relates to the field of electric power industry, and more particularly to devices for measuring partial discharges (PD), which allows monitoring the state of insulation of high-voltage electrical equipment.

An analogue is a device for measuring the characteristics of partial discharges included in the grounding branch of the test object described in GOST 20074-83 "Method for measuring the characteristics of partial discharges" and in the standard EN / IEC 60270 called "High voltage Test Techniques - Partial Discharge measurements" high-voltage tests Partial discharge measurements ", 2000). This device consists of a sensor (high frequency current transformer); measuring device; the filter of frequencies which is connected through a high-voltage cable.

An analogue is a device for detecting partial discharges (RU 2553281 C1, IPC G01R 31/00 G01R 31/02, H01H 9/50 publ. 06/10/2015), including a high-voltage DC power supply, in parallel with which a high-voltage capacitor is connected through one of the switching positions the key. Through another position of the switching key, a test object is connected to the capacitor, to which a sensor is connected, which is connected to the oscilloscope through a shielded wire. The DC power source, capacitor and sensor are connected to a common point and grounded. A low-inductance resistor is used as a sensor.

The disadvantages of the above analogues is the lack of consideration of the influence of the inductance “decoupling” L _ra between the power source and the test object (IO), which affects the distortion of the signal from the PD carrying information about the defect in isolation.

The prototype is a device for monitoring the characteristics of partial discharges (Patent RU 178684 U1, IPC G01V 1/00, G01N 29/00 publ. 04.17.2018) containing a high-voltage capacitor, a high-pass filter, a recording device, which consists of a signal amplifier, an oscilloscope and converter unit, which consists of several elements: an element for decoupling inductance inductance (Lraz), an element for determining the measured signal from the PD under the influence of a power source (voltage surge) (dU _Lpaз ), an element for determining the correction factor of the PD (K _CR ) and an element for determining the magnitude of the signal from the PD (voltage surge during the occurrence of the PD) with no influence of the power source (du). All elements in the device are interconnected by a measuring (coaxial) cable. The disadvantage of this device is that it can only be used to control insulation, when the measuring device is connected to the high-voltage electrode of the test object through a high-voltage capacitor, where an underestimated signal from the PD (voltage surge) is recorded.

In practice, when measuring partial discharges, when the measuring device is connected in the ground branch of the test object, an oscillatory decaying waveform from the PD and an aperiodic waveform from the PD are often observed. A description of the reasons for observing such signals from the Chechen Republic is indicated in [Ba Boraik AM, Usachev A.E., Kubarev A.Yu. The influence of the parameters of the registration scheme on the shape and amplitude of partial discharges // News of Higher Educational Institutions. Energy issues. - 2017. - No. 1-2. - S. 127-136.]. In this work, it is shown that when measuring signals from the PD through a measuring device in the secondary branch of a high-frequency current transformer (HFT) connected in series from the ground with the test object, there are two components in the spectrum of the signal from the PD: aperiodic, carrying information about the defect, and periodic, which is a damped oscillation of the transition process that occurs when the capacitance of the test object when the PD occurs. At a small distance (small inductance of the "isolation" L _times ) between the power source and the test object, an oscillating decaying waveform from the PD is observed, and at a large distance (large inductance of the "isolation" L _ra ) an aperiodic waveform from the PD is observed. In this paper, we show the dependence of the amplitude of the first extremum of the signal on the PD on the inductance of the "decoupling" L _ra , where it is proved that the amplitude of the 1st extremum substantially depends on L _ra . If the signal form from the PD takes the form of an oscillatory process, then this means that the amplitude from the PD of the first extremum is overestimated, which means that it carries distorted information about the defect in isolation.

Thus, it is necessary to develop a device that allows you to take into account the influence of the power source when measuring signals from the PD through the measuring device in the secondary branch of a high-frequency current transformer (HFT) connected in series from the ground with the test object.

The objective of this utility model is to develop a device for measuring partial discharges, which eliminates the disadvantages of analogues and prototype.

The technical result is to increase the reliability and information content of the isolation state of high-voltage electrical equipment and to ensure energy efficiency and safety of operation of the test objects by the method of partial discharges by taking into account the influence of inductance “decoupling” on the shape and magnitude of the signal from the PD during the operational monitoring of high-voltage insulation of electrical equipment by lumped parameters through a measuring device in the secondary branch of a high-frequency current transformer (HFT), included It is sequentially from the side of the earth with the test object.

The technical result is achieved by the fact that the partial discharge measuring device, taking into account the influence of the power source, contains a recording device, which consists of a signal amplifier, an oscilloscope and a converter unit containing an element for decoupling inductance (L _raz ), an element for determining the correction factor of the PD (K _PD ) and an element for determining the magnitude of the signal from the PD with no influence of the power source (di), according to this utility model, this device is included in the ground branch of the test object voltage through a high-frequency current transformer, and the magnitude of the signal from the PD (inrush current) when influenced by a di _Lpaz power supply is measured in the element for determining the increased signal from the PD, which is part of the converter unit, when the power supply (di _Lraz ) is _affected by the following formula:

(L_paз) десятичный логарифм индуктивности L_paз.where di _(-6) = 411 mA, di ₍₀₎ = 76 mA, x0 = -4.2 and dx = 0.42 are constant coefficients and

(L _raz ) decimal logarithm of inductance L _raz .

The essence of the utility model is illustrated by the drawing, where in FIG. 1 shows a functional diagram of the proposed device.

Designations in the drawing:

1 - Terminals for a high frequency current transformer.

2 - High frequency current transformer.

3 - Recording device.

4 - Signal amplifier.

5 - Oscilloscope.

6 - Converter block.

7 - An element for determining the isolation inductance.

8 - Element for determining an increased measured signal from the PD under the influence of a power source.

9 - Element for determining the correction coefficient of the Czech Republic.

10 - Element for determining the magnitude of the signal from the PD with no influence of the power source.

The test object (conventionally not shown in the drawing) is connected to the proposed device through the terminals of a high-frequency current transformer.

The partial discharge measuring device, taking into account the influence of the power source, contains a high-frequency current transformer 2, a recording device 3, which consists of a signal amplifier 4, an oscilloscope 5, and a converter unit 6, which consists of several elements: decoupling inductance determination element 7 (L _raz ), element determining an increased measurement signal from the CR under the influence of the power source (inrush current) 8 (di _Lpaz), element definition correction coefficient CR 9 (R _PD) and an element determining the value of the signal CR (b when a piece of lumber current CR) to the lack of influence of the power supply 10 (di). All elements in the device are interconnected by a measuring (coaxial) cable.

The proposed device has the advantage of taking into account the PD coefficient (K _PD ), which is the ratio of the inrush current in the absence of the influence of the power source (large L _paz ) to the inrush current under the influence of the source (small L _times ). It is proposed to consider the oscillatory form of the PD as a sign of the strong influence of the source. The influence of the source can be neglected for large L _paz (an aperiodic form of PD).

The device operates as follows:

1. The measuring device is connected in the ground branch of the test object through the terminals of the high-frequency current transformer. When a PD occurs in the test object, the signals pass through a high-frequency current transformer 2 and, where the main power frequencies of 50/60 Hz (noise) are blocked and only the high-frequency signal from the PD is transmitted, due to the use of a high-frequency core in the design, there are no industrial frequency currents in the output signal 50 hertz, the HFTC does not respond to them. The output signal of the HFTC contains only signals from high-frequency pulses flowing along the monitored ground branch of a high-voltage device, mainly due to partial discharge pulses in the insulation. The frequency range for HFTC is 0.2 to 10 MHz. This range is sufficient for registration systems for pulses of partial discharges in high-voltage equipment.

2. The signal from the PD is fed to the input of the recording device 3 for amplification using an amplifier 4. Then, the amplified signal is fed to the oscilloscope 5. In the oscilloscope 5, the main characteristics of the signals (current surge) from the PD are recorded (amplitude di _ism and signal duration from the PD). The recorded signals from the CR arrive at the converter unit 6;

3. in element 7 of the converter unit 6, the inductance L _paz is determined by the known capacitance of the test object C and the measured period of the oscillation process T using the formula:

4. in element 8 of the converter unit 6, the signal value from the PD (inrush current) is determined when the power supply di _{Lpaз is affected} by the following formula:

(L_раз) десятичный логарифм найденной индуктивности L_paз по формуле 1;where di _(-6) = 411, di ₍₀₎ ⁼ 76 mA, x0 = -4.2 and dx = 0.42. are constant coefficients and

(L _times ) the decimal logarithm of the found inductance L _raz by formula 1;

5. since the magnitude of the signal from the “apparent” partial discharge (inrush) in the defective multilayer insulation model is determined in the absence of communication between the power source and the EUT, then the PD correction factor is determined in element 9 of the converter unit 6 according to the following formula:

where di ₍₀₎ is the magnitude of the signal from the PD (inrush current) in the absence of a power source di _Lpaz is the value of the signal from the PD (inrush current) under the influence of the source.

6. the magnitude of the signal from the PD (inrush) when the PD occurs with a “disconnected” power source, which is used to determine the signal value from the “apparent” partial discharge, in element 10 of the converter unit 6 is determined by the product of the measured value di _ism by K _PD : di K = di _{amended CHP.}

Thus, using the proposed device eliminates the influence of the power source on the measurement results of the signal from the PD, i.e. wherever we measure, we get a clean undistorted (not overstated) signal that carries information about the defect.

Claims (3)

A partial discharge measuring device, taking into account the influence of a power source, comprising a recording device, which consists of a signal amplifier, an oscilloscope and a converter unit containing an isolation inductance determination element (L _ra ), an element for determining the correction factor of the PD (K _PD ) and an element for determining the value of the signal from PD with no influence of the power source (di), characterized in that this device is included in the ground branch of the test object through a high-frequency current transformer, and the values and the signal from the PD (inrush current) under the influence of the di _Lpaz power supply is measured in the element for determining the increased signal from the PD, which is part of the converter unit, when the power supply (di _Lpaz ) is _affected by the following formula:

where di _(-6) = 411, di ₍₀₎ = 76 mA, x0 = -4.2 and dx = 0.42 are constant coefficients and

(L _times ) the decimal logarithm of inductance L _times .

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