KR100903943B1 - A partial discharge signal measuring system with removing adjacent induction noise and method thereof - Google Patents

Abstract

A partial discharge signal measuring system with removing adjacent induction noise and a method thereof are provided to remove the adjacency phase induced noise flowed in the partial discharge signal generated in the high voltage rotating machine, while utmost maintaining the partial discharge signal. The partial electric discharge measurement method capable of the adjacency phase eliminating induced noise is as follows. A partial discharge signal of all phases is received(S404). The received partial discharge signals as described above is arranged to the number large phase distribution(S406). A signal sample within the adjacency phase induced noise phase interval in which the signal induced with the partial discharge signal on rudder is extracted from the arranged signal as described above(S408). The number of extracted signal sample as described above are used to compare the number of standard sample which is set up based on the effect rate by the adjacency phase induced noise at the determined angular(S410). According to the comparison result, in case the number of extracted signal sample as described above is greater than the number of standard samples, the signal existing in the corresponding phase is removed(S412).

Description

A Partial Discharge Signal Measuring System With Removing Adjacent Induction Noise And Method Thereof}

The present invention relates to noise cancellation of a partial discharge measurement system for diagnosing the insulation state of a high-voltage rotating apparatus.

In general, the most problematic problem in the system of diagnosing the insulation state of the high voltage rotor stator winding during operation is that in addition to the partial discharge signal generated during operation, many external noises and adjacent phase induced noises derived from the adjacent phases are measured together.

The partial discharge signal has a high probability of being concentrated in the rising part of the voltage curve (sine wave), and the noise introduced from the outside is likely to appear in a similar magnitude over the entire phase, and the adjacent phase induced noise has a large bruise. The signal is likely to be the source of adjacent phase induced noise, which is likely to affect the specific phase of the adjacent phase.

1A to 1C (FIG. 1A: A phase, FIG. 1B: B phase, and FIG. 1C: C phase) are examples in which signals measured through a partial discharge measurement system during operation of a Daecheong dam hydroelectric generator are shown in dots. It shows the same characteristics as

In other words, the B phase, which is larger in signal size than other phases, contains only a partial discharge signal and external noise. However, in the A and C phases, the B and A phase B signals are larger than their respective phases. In addition, it can be seen that adjacent phase induced noise (10, 12, 14, 16, 18, 20) as well as the partial discharge signal and external noise appear.

Meanwhile, in the conventional method of removing noise, in order to remove external noise mixed in the partial discharge signal, two sensors 22 and 24 are installed on each phase as shown in FIG. Differential techniques are used to generate delays and remove external noise.

In more detail with respect to the differential technique, two contact partial discharge sensors are installed at different positions, and the distance L1 between the two sensors is determined in consideration of the signal delay of the partial discharge signal and external noise. The length L2 of the output line is determined in consideration of the length that can compensate for the time delay of external noise caused by the length of L1.

As shown in FIGS. 3A to 3C, which are the results obtained by applying the proposed differential technique to the signals of FIGS. 1A to 1C, the differential technique is effective for removing external noise, but the phase A and C phases in which adjacent phase induced noise is generated. In particular, the phase-induced noise (32, 34, 36) of the neighboring phases, especially for the C phase, cannot be removed.

In other words, the conventional method of removing noise does not remove external noise included in the partial discharge signal, but does not consider the adjacent phase induced noise. There is a problem of deterioration.

The present invention has been made in view of the above, and is a partial discharge measurement system for diagnosing the insulation state of a high-voltage rotating device, and the number of phase distribution information of adjacent phase induced noise induced from a bruise introduced into the partial discharge signal. It is an object of the present invention to provide a partial discharge measurement system and method capable of increasing the accuracy of a partial discharge signal and obtaining a reliable insulation diagnosis result by removing the signal by using a s.

The partial discharge measurement system capable of removing adjacent phase induced noise as described above,

A signal receiver for receiving partial discharge signals of all phases;

A signal alignment unit for arranging the received partial discharge signals in a number-to-phase distribution;

A signal sample extractor for extracting signal samples within a predetermined adjacent phase induced noise phase interval from the aligned signal;

A signal sample comparison unit for comparing the number of the extracted signal samples with a predetermined reference sample;

A phase signal removing unit for removing a signal having a predetermined phase according to a result of the signal sample comparing unit;

Characterized in that comprises a.

In particular, the predetermined adjacent phase induced noise phase interval of the signal sample extractor is

When the three phases of the partial discharge signal is correctly phase synchronized, it is characterized in that the 90 ~ 175 degrees, 270 ~ 355 degrees.

개이며, M _i 는 i상의 신호가 존재하는 인접상 유도 잡음 구간의 샘플 개수 평균, AP _i 는 i상의 인접상 유도 잡음 위상 구간, K _i 는 i상의 신호가 존재하는 인접상 유도 잡음 위상 구간의 크기, k는 신호의 위상, N _i (k)는 i상의 해당 위상의 샘플의 개수, G _i 는 i상에서 0 이상 1 이하의 값을 갖는 가중치를 각각 나타내는 것을 특징으로 한다.In addition, the number of reference samples of the signal sample comparison unit

Dog and, M _i is the adjacent-phase induction noise, the phase interval of the signal on a number of samples of the adjacent phase induction noise section by the signal on the i presence average, AP _i is i adjacent the induction noise phase interval, K _i on the i presence characterized in that indicating the size, k is the phase of the signal, N _i (k) is weighted with a value of 0 to 1 on the number, G _i is the sample i of the phase on the i respectively.

이며, 이는 인접상 유도 잡음의 영향에 비례하여 0에 가까운 값을 갖는 것을 특징으로 한다.In addition, when the weight G i on _i received n partial discharge signals

It is characterized by having a value close to zero in proportion to the influence of the adjacent phase induced noise.

On the other hand, another aspect of the present invention is a partial discharge measurement method capable of removing the adjacent phase noise,

(a) receiving partial discharge signals of all phases;

(b) arranging the received partial discharge signals in a number-to-phase distribution;

(c) extracting a signal sample within a predetermined adjacent phase induced noise phase interval from the aligned signal;

(d) comparing the number of extracted signal samples with a predetermined number of reference samples;

(e) removing a signal of a predetermined phase according to the result of the comparison;

Characterized in that comprises a.

In particular, the predetermined adjacent phase induced noise phase interval,

When the three phases of the partial discharge signal is correctly phase synchronized, it is characterized in that the 90 ~ 175 degrees, 270 ~ 355 degrees.

개이며, M _i 는 i상의 신호가 존재하는 인접상 유도 잡음 구간의 샘플 개수 평균, AP _i 는 i상의 인접상 유도 잡음 위상 구간, K _i 는 i상의 신호가 존재하는 인접상 유도 잡음 위상 구간의 크기, k는 신호의 위상, N _i (k)는 i상의 해당 위상의 샘플의 개수, G _i 는 i상에서 0 이상 1 이하의 값을 갖는 가중치를 각각 나타내는 것을 특징으로 한다.Also, the number of reference samples on i is

Dog and, M _i is the adjacent-phase induction noise, the phase interval of the signal on a number of samples of the adjacent phase induction noise section by the signal on the i presence average, AP _i is i adjacent the induction noise phase interval, K _i on the i presence characterized in that indicating the size, k is the phase of the signal, N _i (k) is weighted with a value of 0 to 1 on the number, G _i is the sample i of the phase on the i respectively.

이며, 이는 인접상 유도 잡음의 영향에 비례하여 0에 가까운 값을 갖는 것을 특징으로 한다.In addition, when the weight G i on _i received n partial discharge signals

It is characterized by having a value close to zero in proportion to the influence of the adjacent phase induced noise.

According to the partial discharge measuring system and method of the present invention as described above,

First, the adjacent phase induced noise introduced into the partial discharge signal generated in the high voltage rotor can be effectively removed while maintaining the partial discharge signal as much as possible.

Second, by removing the adjacent phase induced noise as described above, it is possible to greatly improve the reliability of the diagnosis of the insulation state of the rotating machine,

Third, since there is an advantage of maintaining the performance of the existing technique even in the case of a partial discharge signal in which adjacent phase induced noise exists because it is easily interlocked with the existing noise cancellation technique, considerable commercial and economic effects are expected.

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 was 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 stated in the detailed description of the part, it should not be simply interpreted 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. do.

An algorithm for removing the adjacent phase induced noise introduced into the partial discharge signal generated by the high-voltage rotor according to the present invention has four steps as follows. Iii) receiving partial discharge signals of all phases, ii) aligning the received partial discharge signals in a number-to-phase distribution, iii) extracting signal samples corresponding to adjacent phase induced noise phase regions, iii) And comparing the number of samples corresponding to each phase with the reference number of samples to remove a signal determined to be adjacent phase induced noise.

Hereinafter, with reference to the accompanying drawings will be described in more detail.

In the step of receiving the partial discharge signal in step i), the partial discharge source signals are received through digital measurement as shown in FIGS. 1A to 1C (S404).

Thereafter, the received partial discharge signals are aligned in the number-to-phase distribution in step ii) (s406), and the results of applying the signals to the signals of FIGS. 1A to 1C are shown in FIGS. 5A to 5C. As shown in Figs. 5A to 5C, in the case of the B phase where only the partial discharge signal and the external noise exist, the signal is concentrated in the rising part of the voltage curve (sine wave), but is introduced from the B phase, A and B phase, respectively. In phases A and C where adjacent phase induced noise appears, it can be seen that signals are concentrated in a specific phase region rather than a rising phase of the voltage curve (sine wave) (52, 54, 56, 57, 58, and 59).

In this case, the specific phase region is determined as the adjacent phase induced noise phase section, and the sampling of the corresponding phase section signal is performed in step ⅲ). The adjacent phase induced noise phase interval may be variously changed according to a specific embodiment. When the three phases are accurately synchronized with each other as in the present embodiment, 90 to 175 degrees and 270 to 355 degrees may be selected.

In the last step iii), the number of samples in each phase of the adjacent phase induced noise phase interval signal sample extracted in step iv) to remove the signal determined as the adjacent phase induced noise (for example, as shown in FIG. 5C). 6, 49, and 35 samples of C phase (90, 91, 92 degrees, ...) and the number of samples used as a criterion for determining adjacent phase induced noise (s410). If the number is more than one, the sample is determined to be adjacent phase induced noise and removed (S412).

The average number of samples in the number of samples that is the basis for the following judgment, based on the number of samples, termed and, i on the "reference sample number" is adjacent to the inductive noise, the phase interval of a signal on the i exists as shown in Equation 1 below It is obtained by multiplying the weights (Gain, G _i ) taking into account the influence of the adjacent phase.

In the above, M _i is the adjacent-phase induction noise, the phase interval of the signal on a number of samples of the adjacent phase induction noise section by the signal on the i presence average, AP _i is i adjacent the induction noise phase interval, K _i on the i presence characterized in that indicating the size, k is the phase of the signal, N _i (k) is weighted with a value of 0 to 1 on the number, G _i is the sample i of the phase on the i respectively.

Substituting into Equation 1 based on the present embodiment, the adjacent phase induced noise phase intervals are selected from 90 to 175 degrees and 270 to 355 degrees, and the AP is 90 to 175 degrees from the adjacent phase induced noise phase intervals. K is 355 degrees, and K is the magnitude of the adjacent phase induced noise phase interval in which signals are present, and A, B, and C phases have values of 139, 109, and 172, respectively. Meanwhile, the weight G _i is a value considering the influence of adjacent phase induced noise and has a value between 0 and 1. It is obtained by dividing the average value of the minimum number of samples of the adjacent noise induced noise section in which all phase signals exist. This sets the reference samples to be smaller by setting the values closer to zero as the influence of the adjacent phase induced noise increases.

6A to 6C show the result of applying the present invention technique in which the adjacent phase induced noise phase interval is set to 90 to 175 degrees and 270 to 355 degrees to the signal of FIGS. 1A to 1C. 6A to 6C, it can be seen that the present invention described above effectively removes adjacent phase induced noise, which is a problem that cannot be solved by the prior art.

Meanwhile, FIGS. 7A to 7B illustrate a method in which adjacent phase induced noise phase intervals are set to 90 to 175 degrees and 270 to 355 degrees after applying a differential technique according to the prior art to the signals of FIGS. 1A to 1C. As a result of applying the neighboring phase induced noise removing method, it is possible to improve the reliability of the partial discharge signal by effectively removing the external noise and the adjacent phase induced noise at the same time by combining with the prior art as described above.

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.

1a to 1c is a graph of the partial discharge (phase A, phase B, phase C) measured by the Daecheong dam hydroelectric generator,

2 is a diagram illustrating a differential technique for removing external noise according to the prior art;

3A to 3C are graphs of a result of applying a differential technique according to the prior art to the signals of FIGS. 1A to 1C;

4 is a flowchart illustrating a method of canceling adjacent phase induced noise according to the present invention;

5A to 5C are graphs of the results of applying the water band phase distribution alignment described in FIG. 4 to the signals of FIGS. 1A to 1C;

6A to 6C are graphs showing the results of applying the adjacent phase induced noise cancellation method according to the present invention to the signals of FIGS. 1A to 1C;

7A to 7B are graphs showing the results of applying the conventional method and the method proposed by the present invention to the signals of FIGS. 1A to 1C.

Claims (8)

A signal receiver for receiving partial discharge signals of all phases; A signal alignment unit for arranging the received partial discharge signals in a number-to-phase distribution; A signal sample extracting unit for extracting a signal sample in an adjacent phase induced noise phase section in which the signal induced by the partial discharge signal of the other phase is generated from the aligned signal; A signal sample comparison unit for comparing the number of reference samples set based on the degree of influence by adjacent phase induced noise on each phase determined by using the number of extracted signal samples and the number of extracted signal samples; A phase signal removing unit for removing a signal present in a corresponding phase when the number of extracted signal samples is greater than a number of reference samples according to a comparison result of the signal sample comparing unit; Partial discharge measurement system capable of removing adjacent phase induced noise, characterized in that configured to include. The method according to claim 1, The adjacent phase induced noise phase section of the signal sample extractor is The partial discharge signal is a partial discharge signal of the three-phase signal of the rotor, and when the partial discharge signals of the three phase of the rotor are accurately phase-locked with respect to each phase, adjacent phase induced noise cancellation is characterized in that 90 to 175 degrees and 270 to 355 degrees. Partial discharge measurement system. The method according to claim 1, The number of reference samples of the signal sample comparison unit is

Dog and, M _i is the adjacent-phase induction noise, the phase interval of the signal on a number of samples of the adjacent phase induction noise section by the signal on the i presence average, AP _i is i adjacent the induction noise phase interval, K _i on the i presence size, k is the phase of the signal, N _i (k) are i on the number of samples for the phases, G _i is adjacent, characterized in that indicating the weight having a value of 0 to 1 on the i each phase induction noise removal is Possible partial discharge measurement system. The method according to claim 3, In the specific phase (phase i ), when G _i receives a partial discharge signal of n phases

And, which has a value close to zero in proportion to the influence of the adjacent phase induced noise. (a) receiving partial discharge signals of all phases; (b) arranging the received partial discharge signals in a number-to-phase distribution; (c) extracting signal samples in an adjacent phase induced noise phase section in which the signal induced by the partial discharge signal of the other phase is generated from the aligned signal; (d) comparing the number of reference samples set based on the degree of influence by adjacent phase induced noise on each phase determined using the number of extracted signal samples and the number of extracted signal samples; (e) removing the signal present in the phase when the number of extracted signal samples is greater than the number of reference samples according to the comparison result; Partial discharge measurement method capable of removing adjacent phase induced noise, characterized in that it comprises a. The method according to claim 5, The adjacent phase induced noise phase interval is, The partial discharge signal is a partial discharge signal of the three-phase signal of the rotor, and when the partial discharge signals of the three-phase rotor are correctly synchronized in phase, the partial discharge capable of removing adjacent phase induced noise is characterized in that 90 ~ 175 degrees, 270 ~ 355 degrees. How to measure. The method according to claim 5, The number of reference samples is

Dog and, M _i is the adjacent-phase induction noise, the phase interval of the signal on a number of samples of the adjacent phase induction noise section by the signal on the i presence average, AP _i is i adjacent the induction noise phase interval, K _i on the i presence size, k is the phase of the signal, N _i (k) are i on the number of samples for the phases, G _i is adjacent, characterized in that indicating the weight having a value of 0 to 1 on the i each phase induction noise removal is Possible partial discharge measurement method. The method according to claim 7, In the specific phase (phase i ), when G _i receives a partial discharge signal of n phases

And, which has a value close to zero in proportion to the influence of the adjacent phase induced noise.

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