KR20040103249A - Method for detecting open-circuit of current transformers - Google Patents

Abstract

PURPOSE: A method is provided to prevent erroneous operation of a relay, by detecting, in a real time basis, the erroneous operation through the use of current of each phase sampled from a secondary side of a current transformer. CONSTITUTION: A method comprises a step(S10) of sampling secondary currents of a current transformer of each phase; a step(S20) of obtaining an image current by using secondary currents of each phase; and a step(S30,S40,S50) of judging whether each of the secondary currents of each phase is lower than a predetermined threshold value, and judging that only the phase lower than the threshold value is opened, if one of the secondary currents of each phase is lower than the threshold value and the differences between the absolute values of the secondary currents of the other phases and the absolute values of three times of the phase current are lower than the predetermined threshold value.

Description

METHOOD FOR DETECTING OPEN-CIRCUIT OF CURRENT TRANSFORMERS}

The present invention relates to a method of determining the opening of a current transformer in a protective relay system for protecting a power system. More specifically, the secondary side when a failure occurs in which a secondary side of a current transformer is opened. By detecting this in real time using the current of each phase sampled from, to provide a current transformer open decision method for avoiding the malfunction of the relay.

A current transformer is a device for measuring a current flowing through a power system and inputting it to a protective relay. As shown in FIG. 1, a core 34 for concentrating magnetic flux generated by a primary current flowing in a line 32 is provided. ) And a secondary coil 36 surrounding the core 34 to generate a secondary current by the magnetic flux induced in the core 34. The current proportional to the secondary coil 36 is induced by the current flowing in the line 32 serving as the primary coil, and the magnitude of the secondary current is determined by the current ratio. Here, in order to maximize the linkage magnetic flux between the line 32 and the secondary coil 36, in most cases, the core 34 of the core 34 is an iron core current transformer.

2 shows an equivalent circuit of the simplified current transformer. Where L _m is the magnetization inductance of the current transformer, i _m is the magnetizing current, i ₁ is the (for that is, side Ljubica) induced in the secondary side by the primary current the secondary current, i ₂ is a second actually measured car Refers to the current. The magnetizing inductance L _m is not a constant value and has a different value depending on the magnetizing current.

In the normal state without any fault in the circuit, the current transformer inputs data related to the primary current into the relay by the secondary current induced by the primary current.However, as shown in FIG. The problem is that the circuit on the secondary side is broken. In this case, the current transformer is said to be "open."

For the correct operation of the relay, the secondary side of the current transformer must reflect the current flowing in the grid line (primary side current) well, but the operation of the relay occurs due to the opening of the current transformer. For example, the current differential method uses a method of obtaining a differential current (hereinafter, referred to as a 'differential current') flowing between both terminals of a protection target and determining that the internal accident is a certain value. In the protection relay, when the secondary side of the current transformer is opened and the current of the line is not sensed, it is erroneously recognized as a difference current, and even though it is not an accident, it is judged as an accident and causes a malfunction of the current differential relay.

As a conventional method for preventing malfunction of the current differential relay system due to the opening of the current transformer, the voltage applied to the object of protection during the occurrence of an accident decreases while the voltage does not decrease when the current transformer opens. An improved method is used to send a trip signal by judging an accident only when the low voltage relay and the differential current relay operate simultaneously. In other words, in addition to the current differential relay, a low voltage relay is used as a superimposing element of the accident judgment to prevent malfunction of the protective relay by opening the current transformer by judging that it is an accident only when the two relays operate simultaneously. I'm doing it.

However, this method has the following problems. For example, if the current transformer is open, a differential current is generated. Therefore, a conventional current differential relay cannot distinguish whether a differential current is caused by an opening or a differential current due to an accident within a protection period. Although it is not an accident within the section, it is judged as an accident within the protected section. In this case, if an accident occurs in an external section outside the protection section that the current differential relay is responsible for, a low voltage is generated in the protection target, so that the low voltage relay operates. Therefore, in this case, since the low voltage relay and the current differential relay operate at the same time, a trip signal of the breaker is generated according to the above-described prior art method, which is determined as an accident even though it is not an accident within the section in which the relay is in charge. As a trip signal is generated, the relay eventually malfunctions.

Therefore, in the case of using such a conventional method, there is a technical limitation that a malfunction occurs when an external accident occurs when the current transformer is opened, and further, since additional low voltage relay and current differential relay must be used in parallel, additional equipment and cost This will take.

The present invention is to solve the above problems, and provides a method for detecting whether the current transformer secondary circuit is open by using the image current generated when the current transformer is opened.

According to the aspect of the present invention, the current transformer opening determination method obtains the image current from the secondary current of each phase of the current transformer, and determines whether the single phase is open, the two phases are open, or the entire phase is open from the relationship between the effective value of the image current and each phase current. In order to distinguish the cognition, it is possible to accurately detect the phase where the opening occurs and mark it so that it can be recognized from the outside, so that a quick countermeasure can be prepared and a blocking signal can be sent in advance so that it is not recognized as a system accident. As a result, malfunction of the current differential relay can be prevented.

1 shows a general configuration of a current transformer.

2 shows an equivalent circuit of the simplified current transformer.

3 shows an equivalent circuit at the time of opening the current transformer.

Figure 4 shows an embodiment of the current transformer opening determination method of the present invention.

In FIG. 5, the opening determination method of the embodiment is illustrated in more detail using a flowchart.

Figure 6 shows the configuration of the model line used by way of example to verify the proposed scheme.

7A shows an effective value of three times the image current when opening A phase.

7B shows the effective value of the A-phase current when the A-phase is opened.

7C shows the effective value of the B-phase current when the A-phase is opened.

7D shows an effective value of the C phase current when the A phase is opened.

7E shows the magnitude and phase of each phase (A, B, C and image current) before and after opening of A phase.

7F shows the current differential relay operation when A phase is open.

7G shows the relay output 87, phase A open signal, and final trip signal upon phase A open.

<Explanation of symbols for the main parts of the drawings>

32: track 34: iron core

36: secondary winding

A method for determining the opening of a current transformer according to an aspect of the present invention for achieving the above object comprises the steps of: sampling the current transformer secondary currents (Ia, Ib, Ic) of each phase; Obtaining an image current Io using the secondary current of each phase; Determining whether each current transformer secondary current is less than or equal to a predetermined threshold value; And one of the current transformer secondary currents of each phase is less than or equal to the threshold value, and a difference between an absolute value of the current transformer secondary currents of the remaining phases and an absolute value of three times the image current (| 3Io |) is respectively predetermined. If it is below the threshold, determining that only the phase below the threshold is open.

Preferably, in the current transformer opening determination method of the present invention, two phases of the current transformer secondary currents are less than the threshold value, and an absolute value of the current transformer secondary current of the remaining phases and an absolute value of three times the image current (| 3Io). If the difference of |) is less than or equal to a predetermined threshold, determining that two phases less than or equal to the threshold are open.

Preferably, in the current transformer opening determination method of the present invention, all of the current transformer secondary currents of each phase are less than or equal to the threshold value, and an absolute value of each current transformer secondary current and an absolute value of three times the image current (| 3Io | Determining that all the phases are open when all of the differences are less than or equal to a predetermined threshold.

Preferably, the current transformer opening determination method of the present invention further includes generating a signal indicating that the phase determined to be open is open.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

The current and image current of each phase before the accident are expressed in the following form.

(One)

(2)

(Where Ia, Ib and Ic represent the primary currents of each phase, Io represents the image current, to be.)

If the current transformer is not open, the secondary current reflects the primary current as it is, thus satisfying equations (1) and (2). However, when the secondary side of the current transformer is opened as shown in FIG. 3, the image current is observed because at least one secondary current becomes zero. For example, when the A-phase current transformer is open, the A-phase secondary current becomes 0, and thus the calculated image current is as follows.

(3)

By the way, when the A-phase current transformer is open in the normal state in which no accident occurs, since the magnitudes of the primary phase currents are the same, the following equation is established.

(4)

In addition, when the current transformers of the A and B phases are open, the secondary currents of the A and B phases become zero, so that the image current is as follows.

(5)

In the normal state without an accident, when the A-phase and B-phase current transformers are open, the magnitude of the sum of the primary A-phase current and the B-phase current and the magnitude of the C-phase current are the same.

(6)

If the current transformers of the A, B, and C phases are all open, the secondary currents of the A, B, and C phases are all zero, so the image current is zero.

(7)

Since the secondary currents are all zero, the following equation holds.

(8)

Therefore, 3 times the image current (at the current transformer secondary current) ) And the magnitude of the phaser of each phase current ( , , ) To determine whether the current transformer is open, as well as to determine exactly which phase is open.

An embodiment of the current transformer judging method of the present invention applied to a three-phase line is shown in FIG. 4.

The method of the present embodiment includes the steps of sampling current transformer secondary currents Ia, Ib, and Ic of each phase (S10), obtaining an image current (Io) using the secondary current of each phase (S20), Determining whether each current transformer secondary current is equal to or less than a predetermined threshold, and determining whether the single phase is open, whether the two phases are open, or whether all three phases are open (S30, S40, and S50). ) Is followed.

In order to determine whether a single phase open condition is met, any one of the current transformer secondary currents of the respective phases is less than or equal to the threshold value, and the absolute value of the current transformer secondary current of each of the remaining phases is three times the image current. When the difference of the absolute value | 3Io | is respectively less than or equal to a predetermined threshold value, it is only necessary to judge that only the phase below the said threshold value is opened.

In addition, in order to determine whether the two-phase open condition is applicable, two phases of the current transformer secondary current of each phase is less than the threshold value, the absolute value of the current transformer secondary current of the remaining phases and three times the absolute of the image current. When the difference of the value | 3Io | is less than or equal to a predetermined threshold, it can be determined that two phases less than or equal to the threshold are open.

Finally, to determine whether all three phases correspond to the open condition, all of the current transformer secondary currents are less than or equal to the threshold, and the absolute value of each current transformer secondary current and three times the image current. When all of the difference of the absolute value (| 3Io |) of is below the predetermined threshold, it is good to judge that all the said phases are open.

FIG. 5 exemplarily illustrates a flowchart when a specific algorithm is implemented by applying the method of the embodiment of FIG. 4.

The case where only a single phase of A phase, B phase, and C phase is opened, the case where only two phases of AB phase, AC phase, BC phase are opened, and the case where all ABC phases are open are distinguished and discriminated, respectively. Each determination condition is as shown in the flowchart. Herein, the judgment condition statement (eg, Ia = 0, etc.) in the step of determining whether each phase current is 0 or the like, or the judgment statement for determining whether the effective value of the triple image current is equal to each phase current (for example, , | 3Io | = | Ic |, etc., each phase current and image current actually detected and calculated can contain errors, so that if they are ideally zero or completely equal, there can be no actual situation. By modifying the expression (for example, Ia <threshold or | 3Io |-| Ic | <threshold), the above conditions are considered to be satisfied if the difference is less than or equal to a threshold that corresponds to a predetermined error limit. Etc. may be used. The threshold is an extremely small value that falls within the margin of error and can be chosen arbitrarily according to system conditions or system specifications. For example, in the case of the steady state, it is possible to set variously to 1% or less or 0.1% of the effective value of each phase current.

In order to verify the validity of the method of the present invention, it was exemplarily applied to the model line shown in FIG. 6. 6 illustrates a case where a current differential relay is used to protect the transmission line based on the secondary current value of the current transformer measured at both ends of the transmission line.

The result of the case where the secondary side of the A-phase current transformer installed on the right side of the P busbar in the system of FIG. FIG. 7A shows the calculated effective value of three times the image current. It can be seen that the secondary A phase is opened at 50 ms, and the effective value of the A phase current of FIG. 7C and 7D show the effective values of the B-phase and C-phase currents. In FIG. 7B, FIG. 7C, and FIG. 7D, the value for one initial period (16.7 ms) is ignored because it is not an accurate value since the data window has a value before one period. 7E shows the magnitudes and phases of A, B, C and image currents before and after opening the current transformer. Before the A phase of the current transformer is opened, the relationship of Equation (1) is satisfied, but after the accident, the A phase current becomes zero, and three times the image current is the same as that of the B phase current. It is the sum of C phase current. Therefore, the magnitude of three times the image current and the sum of the sum of the B-phase current and the C-phase current are equal.

7F shows the trip region of the variable ratio current differential relay that is responsible for protecting the transmission line. A margin of 1.5 was placed at the beginning of the trip area, and the first slope where the suppression current value of the variable ratio current differential relay was 5 or less was 0.3, and the second slope was 0.9, which is three times that of the trip ratio. It can be seen that the relay enters the operating area at 70.3 ms even though it is not an accident, even though there is no accident. That is, the relay malfunctions about 20 ms after the current transformer is opened.

However, as shown in FIG. 7G, when the current transformer is applied, the present invention recognizes this when the current transformer is opened, and generates an open display signal (indicator) as a blocking signal at 65.0 ms. That is, it is possible to detect the opening of the current transformer within one cycle of the opening of the current transformer, and incorrectly determine that this is an accident of the system even when the current transformer is opened, thereby preventing the relay from malfunctioning.

As described above, in the detailed description of the present invention, specific embodiments have been described, but it should be taken as exemplary, and various modifications may be made without departing from the technical spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

According to the present invention, the image current is obtained from the secondary current of each phase of the current transformer, so that it is possible to distinguish whether the single phase is open, the two phases are open, or the whole phase is open from the relationship between the effective value of the image current and each phase current. By accurately detecting the open phase and displaying it so that it can be recognized from the outside, a quick countermeasure can be prepared, and a blocking signal can be generated to prevent the malfunction of the current differential relay so that it is not recognized as a system accident. Thus, it is possible to further improve the quality of power service by contributing to the protection of the system and the smooth supply and demand of electricity.

Claims (4)

In the method for determining the opening of the current transformer, Sampling the current transformer secondary currents Ia, Ib, Ic of each phase; Obtaining an image current Io using the secondary current of each phase; Determining whether each current transformer secondary current is less than or equal to a predetermined threshold value; And Any one of the current transformer secondary currents of each phase is less than or equal to the threshold, and a threshold in which the difference between the absolute value of the current transformer secondary current of the remaining phases and the absolute value (| 3Io |) of three times the image current is all predetermined. If less than a value, determining that only a phase below the threshold is open. The method of claim 1, When two phases of the current transformer secondary currents of each phase are less than or equal to the threshold value, and a difference between the absolute value of the current transformer secondary current and the absolute value (| 3Io |) of three times the image current is less than or equal to a predetermined threshold value. And determining that the two phases below the threshold are open. The method of claim 2, When all of the current transformer secondary currents of the respective phases are less than or equal to the threshold value, and the difference between the absolute value of each current transformer secondary current and the absolute value (| 3Io |) of three times the image current is less than or equal to a predetermined threshold value. And determining that all the phases are open. The method according to claim 1 or 2, And generating a signal indicating that the phase determined to be open is open.