KR101018702B1 - Partial Discharge Corrector With Self Correction And Tracing Management - Google Patents

Abstract

The present invention relates to a partial discharge amount calibrator having a self-calibration and tracking management function, more specifically, it is possible to self-calibration by measuring the charge amount, rise time and the number of pulses of the pulse and can conveniently track the results By providing the partial discharge amount calibrator, it is possible to easily calibrate the partial discharge amount in various environments, thus improving the reliability of measuring the discharge amount in the partial discharge test and performing the self-calibration calibration of the calibrator according to the standard. A partial discharge amount calibrator having a tracking function.

for teeth,

Calibration pulse generating means for generating a pulse by modeling a partial discharge pulse; Pulse charge amount and rise time measuring means and pulse number measuring means for measuring a parameter of a pulse generated by said calibration pulse generating means; Pulse evaluation processing and data transmission means for digitally processing and evaluating the result measured by the measurement means and transmitting data to the outside; And a control means for controlling the calibration pulse generating means, pulse charge amount and rise time measuring means, pulse number measuring means, the pulse evaluation processing and data transmission means and processing the signal thereof. And partial discharge calibrator with traceability.

Partial discharge, pulse, rise time, network, calibrator, self calibration

Description

Partial Discharge Corrector With Self Correction And Tracing Management}

The present invention relates to a partial discharge amount calibrator having a self-calibration and tracking function.

In general, conventional partial discharge amount calibrator performs a process through a complicated calibration procedure by calculating the amount of charge and rise time of the pulse with a high speed oscilloscope, etc. every predetermined period.

Therefore, there is a problem that it is not easy to know even if the performance is not satisfied due to failure or deterioration due to the calibration procedure as described above, there is a problem that can be obtained incorrect measurement results in the partial discharge test.

In addition, in general, the calibrators need to track and manage the calibration results, but in the past, the results are stored in the form of documents such as general documents, and thus there is a problem in that it is not easy to access and search, which is inconvenient to use.

The present invention has been made in view of the above, by measuring the charge amount, rise time and number of pulses of the self-calibration is possible by providing a partial discharge amount calibrator to be able to conveniently manage the results In addition, it is easy to calibrate the calibrator in various environments, thus improving the reliability of measuring the discharge amount in the partial discharge test and providing the partial discharge amount calibrator with self-calibration and tracking management function to perform calibration management of the calibrator according to the standard. The purpose is.

The partial discharge amount calibrator having the present invention self-calibration and tracking management function as described above,

Calibration pulse generating means for generating a pulse by modeling a partial discharge pulse;

Pulse charge amount and rise time measuring means and pulse number measuring means for measuring a parameter of a pulse generated by said calibration pulse generating means;

Pulse evaluation processing and data transmission means for digitally processing and evaluating the result measured by the measurement means and transmitting data to the outside; And

Control means for controlling said calibration pulse generating means, pulse charge amount and rise time measuring means, pulse number measuring means, said pulse evaluation processing and data transmission means and processing the signal;

And a control unit.

In particular, the pulse charge amount and rise time measuring means,

And a high pass filter and a low pass filter connected in parallel between the calibration pulse generating means and the pulse evaluation processing and data transmission means.

In addition, the pulse charge amount and rise time measuring means further comprises an integrator connected to the high pass filter and the low pass filter, respectively, wherein the pulse evaluation processing and data transmission means is a pair of analog connected to the integrator It further comprises a digital converter.

In addition, the pulse evaluation processing and data transmission means is characterized in that it further comprises a high-speed analog-to-digital converter connected to the high pass filter and the low pass filter, respectively.

In addition, the pulse number measuring means is characterized in that consisting of a pulse counter connected between the calibration pulse generating means and the pulse evaluation processing and data transmission means.

In addition, the pulse evaluation processing and data transmission means is characterized in that it further comprises a digital processing means for evaluating the output value of the analog-to-digital converter, and a communication means for transmitting the result value of the digital processing means to the outside. .

In addition, the pulse charge amount is measured by the sum of the integral values of the high pass filter and the low pass filter, and the pulse rise time is measured by the ratio or correlation between the two values.

According to the partial discharge amount corrector having the self-calibration and tracking management function as described above,

First, the high pass filter and the low pass filter are added to the partial discharge amount calibrator, and integrators are installed at these output stages to indirectly measure the magnitude and rise time of the pulse charge. The pulse count can be measured through the pulse counter.

Second, the measured data can be managed internally by a program or transferred to an external computer or server through a communication device for tracking and management.

Third, the above effects can increase the reliability of the partial discharge test, facilitate the tracking and management of the calibrator, and can achieve remote and automated testing, which is expected to have significant commercial and economic effects.

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation of the embodiment of the present invention, the configuration and operation of the present invention shown in the drawings and described by it will be described as at least one embodiment, By the technical spirit of the present invention described above and its core configuration and operation is not limited.

In addition, the terminology used in the present invention is selected as a general term widely used as possible now, in a specific case will be described using terms arbitrarily selected by the applicant. In such a case, since the meaning is clearly described in the detailed description of the part, it should not be interpreted simply by the name of the term used in the description of the present invention, and it should be understood that the meaning of the term should be interpreted. .

In order to achieve the above object, an embodiment of a partial discharge amount calibrator having a self-calibration and tracking management function according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a partial discharge amount calibrator having a self-calibration and tracking function, to measure the pulse parameters such as the pulse generation circuit 100, the pulse amount and rise time, the number of pulses modeled after the partial discharge pulse Measurement circuit 200 for digital processing, pulse evaluation processing and data transmission circuit 300 for digitally evaluating and evaluating measurement results and transmitting data to a computer or server, and control means and program 400 for controlling and processing the whole. It is configured to include.

In addition, the data in the pulse evaluation processing and data transmission circuit 300 may be transmitted to other computers and servers through a wired / wireless communication network such as the Internet.

In particular, the pulse generated by the calibration pulse generating circuit 100 may generate a calibration pulse during the partial discharge test to calibrate the partial discharge meter, or to perform self-calibration to track and manage the result.

FIG. 2 is a detailed configuration diagram of a partial discharge amount calibrator having a self-calibration and tracking management function. The pulse generated by the pulse generation circuit 100 may be selected from a partial discharge amount calibration mode or a self calibration mode.

When the self-calibration mode is selected, the pulse generating circuit 100 is connected to the pulse charge amount and the rise time measuring circuit 200, and the pulse generated in the pulse generating circuit 100 is a high pass filter. 202 and a low pass filter 206 are input in parallel, the output of which passes through square or absolute integrators 204 and 208, respectively.

Thereafter, the signal is input to the analog-digital converters 302 and 304 of the evaluation processing and the data transmission circuit 300, respectively, and the input value is digitized by the analog-digital converters 302 and 304 and processed by a predetermined internal program. (306). The result is then sent to an external computer or server through a communication device for evaluation and storage (308).

To evaluate the charge amount and rise time of the pulse, the charge amount is evaluated from the sum of the two values integrated (204, 208) through the high pass filter 202 and the low pass filter 206, and according to the rise time. Since the frequency spectrum is different, the rise time is evaluated by the ratio or correlation of the two values.

In this case, the cutoff frequency of the high pass filter 202 and the low pass filter 206 is determined as the frequency most sensitive to the reference rise time, and a few MHz is preferable as a preferred embodiment.

In addition, a pulse counter 209 connected between the calibration pulse generating circuit 100 and the pulse evaluation processing and data transmission circuit 300 is used to evaluate the number of pulses. Per second).

3 is another embodiment of the present invention, in which the integrator is removed from the configuration in FIG. 2 and instead using the high speed analog-to-digital converters 310 and 312, the absolute value or the square integral of the value measured in the high-speed analog-to-digital converter By the internal program, the same function as that shown in FIG.

4 is a diagram illustrating an operation flow of the partial discharge amount calibrator having self-calibration and tracking management functions.

As shown in the figure, the mode can be operated in the calibration pulse generation mode s404 and the self-calibration mode s410 (s402).

When the calibration pulse generation mode s404 is selected, a general partial discharge meter may be calibrated (s406).

On the contrary, when the self-calibration mode is selected (s410), a predetermined pulse is generated (s412) to measure the charge amount, the rise time, and the number of pulses of the pulse (s414), and from the resulting data, it is checked whether the values exist within the uncertainty range. (s418). After that, if the data is determined to be normal, the data may be stored internally and transmitted to an external computer and server (s420). If it is determined to be abnormal, fine calibration is performed (s424) and the partial discharge amount calibrator may be repaired according to the result (s426). ).

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that the embodiments may be modified without departing from the spirit or spirit of the invention. . It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

1 is a block diagram of a partial discharge amount calibrator having a self-calibration and tracking management function according to the present invention,

2 is a circuit diagram for measuring the charge amount and rise time of the pulse in the partial discharge amount corrector according to the present invention, the number of pulses,

3 is a circuit diagram for measuring the charge amount, the rise time, and the number of pulses of a pulse using a high speed A / D converter as another embodiment of the present invention;

4 is a control flowchart of a partial discharge amount calibrator having a self-calibration and tracking management function according to the present invention.

Claims (7)

Calibration pulse generating means for generating a pulse by modeling a partial discharge pulse; Pulse charge amount and rise time measuring means and pulse number measuring means for measuring a parameter of a pulse generated by said calibration pulse generating means; Pulse evaluation processing and data transmission means for digitally processing and evaluating the result measured by the measurement means and transmitting data to the outside; And Control means for controlling said calibration pulse generating means, pulse charge amount and rise time measuring means, pulse number measuring means, said pulse evaluation processing and data transmission means and processing the signal; Partial discharge amount calibrator having a self-calibration and tracking management function comprising a. The method according to claim 1, The pulse charge amount and rise time measuring means, A partial discharge amount calibrator having a self-calibration and tracking management function comprising a high pass filter and a low pass filter connected in parallel between the calibration pulse generating means and the pulse evaluation processing and data transmission means. . The method according to claim 2, The pulse charge amount and rise time measuring means further includes an integrator connected to a high pass filter and a low pass filter, respectively, wherein the pulse evaluation processing and data transmission means comprise a pair of analog-digital converters connected to the integrator. Partial discharge amount calibrator having a self-calibration and tracking management function, characterized in that it further comprises. The method according to claim 2, And the pulse evaluation processing and the data transmitting means further comprise a high-speed analog-to-digital converter connected to the high pass filter and the low pass filter, respectively. The method according to claim 1 And said pulse number measuring means comprises a pulse counter connected between said calibration pulse generating means and said pulse evaluation processing and data transmission means. The method according to claim 3 or 4, The pulse evaluation processing and the data transmission means further comprises a digital processing means for evaluating the output value of the analog-to-digital converter and a communication means for transmitting the result value of the digital processing means to the outside, characterized in that the self-calibration Discharge amount corrector with tracking and tracking. The method according to any one of claims 2 to 4, The pulse charge amount is measured through the sum of the integration values of the high pass filter and the low pass filter, and the pulse rise time is determined by the ratio or correlation between the integration value of the high pass filter and the low pass filter. Partial discharge amount calibrator having a self-calibration and tracking function characterized in that it measures.

Images