KR101006904B1 - Transmission line parameter measurement device and method using the same - Google Patents

Abstract

PURPOSE: A transmission line parameter measurement device and a method using the same are provided to improve measurement accuracy of line parameters. CONSTITUTION: An ammeter(120) measures the current flowing two transmission lines. A voltmeter(110) measure the line voltage between the two transmission lines and each ground voltage from each transmission line. A data compensator(130) uses line voltage and ground voltage to correct the influence of the induced voltage on two transmission line. A line parameters calculator(140) calculates line parameters by using a compensated voltage and measured current.

Description

Transmission line parameter measurement device and method using the same

The present invention relates to a transmission line line constant measuring apparatus and a measuring method thereof, and more particularly, to a technique for improving the measurement accuracy of line constants by correcting the influence of induced voltages.

The first of the two methods of measuring the line constant of a conventional transmission line during a truce is to ground one end of the transmission line, install a current source at the other end, inject a current, and then measure the measured phase voltage and phase current information. Find the line constant using.

However, the ground return resistance affects the measurement accuracy of the track constant, and due to the characteristics of the ground return resistance that varies with the environment such as weather, temperature, and humidity, there is a problem that accurate track constant measurement is impossible.

Referring to FIG. 1 as a second method, it is an equivalent circuit for measuring the line constant of a transmission line during a truce. After grounding one end of the transmission line, the current source is installed at the other end and the current is injected, and the line constant is calculated by using the measured line voltage and line current information.

However, the voltage information used in the calculation of the line constant includes the influence of induced voltage generated by the environment around the line for which the line constant is measured, in particular the current flowing in the surrounding line, and the induced voltage which varies depending on the operating conditions. There was a problem that it is impossible to measure the accurate line constant because it affects the accuracy of the line constant measurement.

In addition, in the method of measuring the line constant of a transmission line during operation, the line constant is obtained by measuring time-synchronized voltage and current information from both ends of the transmission line.

However, in theory, it is possible to measure the line constant in real time considering all factors affecting the transmission line.

However, due to the unbalance of the bus voltage across the line in operation, the unbalance of the line current, the influence of the current flowing through the transmission line around the line constant measuring line magnetically on the line of the line constant measuring line and the measurement error. There was a problem that could not determine the exact line constant due to the fluctuation.

The present invention has been proposed to solve the above problems, and is an improvement of the conventional method of measuring the transmission line constant during transmission line interruption, and is a multi-line configuration and operation around the transmission line measurement target transmission line. The purpose of the present invention is to improve the accuracy of measuring transmission line constants by effectively compensating the effect of voltage induced on a transmission line subject to line constant measurement due to the current flowing in the transmission line.

In order to achieve the above object, a transmission line constant measuring apparatus according to an embodiment of the present invention includes: a current source source connected to two transmission lines each having one end grounded to apply a set current; An ammeter for measuring a current measurement value which is a current flowing through the two transmission lines; A voltmeter for measuring a line voltage, which is a voltage between the two transmission lines, and an earth voltage of each of the two transmission lines; A data correction unit for calculating a correction voltage value correcting the influence of induced voltages on the two transmission lines by using the line voltage and the ground voltage measured by the voltmeter; And a line constant calculation unit configured to calculate a line constant for the line constant measurement objects including the two transmission lines using the correction voltage value and the current measurement value.

In addition, the object of measuring the line constant is to measure the current measurement value, the line voltage and the ground voltage for each group so that the plurality of transmission lines can be measured by using two transmission lines as a group for a plurality of transmission lines. It features.

In addition, the voltmeter includes a first voltmeter module for measuring the voltage between the two transmission lines; It includes a second voltmeter module and a third voltmeter module for measuring the voltage flowing between the two transmission lines and the ground.

In addition, the control unit for controlling the current meter and the voltmeter to measure the current measurement value and the line voltage and the ground voltage at the same time, and the control unit for controlling the current source source to apply a different set current to the plurality of transmission lines by a plurality of settings It includes more.

In addition, the current source source is characterized in that the set current having a different size and having a phase angle of 0 ° is repeatedly applied to the transmission line a plurality of times.

In addition, the line constant calculation unit calculates a line constant calculation value of each of the plurality of power transmission lines, and calculates a line constant calculation value to which a set current having a different set current set a plurality of times for each of the plurality of power transmission lines or for each group is applied. It is characterized by.

Also, the average of the line constant calculation values or the line constant calculation values for each group is calculated based on the line constant calculation values calculated by applying a set current having a different magnitude set for each of a plurality of transmission lines or for each group. The apparatus further includes an average calculating unit that calculates a line constant of a transmission line.

The apparatus may further include a storage unit for accumulating and storing line constant calculation values calculated for each of a plurality of transmission lines or for each group.

In accordance with still another aspect of the present invention, there is provided a method for measuring a line constant of a transmission line, the method comprising: applying, by a current source source, two ends of one transmission line connected to ground lines respectively; Measuring, by an ammeter, a current measurement value which is a current flowing in the two transmission lines; Measuring, by a voltmeter, the line voltage between the two transmission lines and the ground voltages of each of the two transmission lines; Calculating, by a data correction unit, a correction voltage value correcting the influence of induced voltages on the two transmission lines using the line voltage and the ground voltage measured in the measuring of the voltage; And calculating, by the line constant calculation unit, line constants for line constant measurement objects including two transmission lines by using the calculated correction voltage value and the measured current measurement value.

In addition, the object of measuring the line constant is to measure the current measurement value, the line voltage and the ground voltage of each group so that the plurality of transmission lines can be measured by using two transmission lines as a group for a plurality of transmission lines. It features.

The method further includes controlling the ammeter and the voltmeter to measure the current measurement value and the line voltage and the ground voltage at the same time.

In the controlling, the current source source may be controlled to apply a set current having a different size to the plurality of power transmission lines by a plurality of settings.

In the measuring of the voltage, measuring the voltage between the two transmission lines; And measuring a voltage flowing between each of the two transmission lines and the ground.

In addition, the step of applying a set current is characterized in that the set current having a phase angle of 0 ° and the set current having a phase angle of 0 ° to the power transmission line a plurality of times set to the two transmission lines.

In the calculating of the line constant, a line constant calculation value of each of the plurality of transmission lines is calculated, and a line constant calculation value to which a set current having a different size set for each of the plurality of transmission lines or each group is applied. It is characterized by calculating.

The line constant calculation value or the line constant calculation value for each group is calculated on the basis of the line constant calculation values calculated by applying a setting current having a different magnitude set for each of a plurality of transmission lines or for each group by the average calculator. Comprising a step of calculating the average of the values as the line constant of the transmission line.

The method may further include accumulating and storing line constant calculation values calculated by each storage line or group by the storage unit.

According to the present invention, the conventional method for measuring transmission line constants during a transmission line truce is improved, and a multi-line configuration and operation result in a line constant measurement transmission line due to the current flowing in the transmission line around the transmission line measurement target line. Effectively correcting the influence of the voltage induced in the furnace has the effect of improving the line constant measurement accuracy.

1 is an equivalent circuit diagram of a line constant measurement using conventional line voltage and line current information.
2 is an equivalent circuit diagram of a line constant using line voltage and line current information for a transmission line measuring apparatus and a method thereof according to an exemplary embodiment of the present invention.
3 is an overall configuration diagram of a transmission line measuring apparatus according to a first embodiment of the present invention.
4 is a view for explaining the transmission line line constant measurement in the first order according to FIG.
5 is a view for explaining the measurement of the transmission line line constant in the second order according to FIG.
6 is a view for explaining the measurement of the transmission line line constant in the third order according to FIG.
7 is a flowchart illustrating a method for measuring a transmission line according to FIG. 3.
8 is an overall configuration diagram of a transmission line measuring apparatus according to a second embodiment of the present invention.
9 is a flowchart for explaining a transmission line measuring method according to FIG. 8.
10 is a flowchart illustrating a transmission line measuring method according to a third embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION In order to explain in detail that a person skilled in the art can easily implement the technical idea of the present invention, the most preferred embodiment of the present invention will be described with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, a transmission line line constant measuring apparatus and a measuring method thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, all the variables of the equation used in the present invention means a vector value.

FIG. 2 is an equivalent circuit diagram of a line constant using line voltage and line current information of a transmission line measuring apparatus and a method thereof according to an exemplary embodiment of the present invention.

Referring to FIG. 2, data for correcting the influence of voltage (V _Induction ) induced on a transmission line to be measured for line constant measurement due to the current flowing in the transmission line around the line to be measured for line constant measurement (V _Total −) V _Induction ) to improve the accuracy of the line constant.

Thus, the formula according to the above in order to measure the line constant using the line voltage, line current information as follows.

(Z _a + Z _b ) = (V _Total -V _Induction ) / I

In this way, it is possible to improve the measurement accuracy of the line constant by removing the influence of the induced voltage by using the above equation.

In addition, in order to improve the accuracy of the measured line constant, the arithmetic mean is calculated by using the set number of line constants calculated by applying different currents to the plurality of transmission lines by the set number of times through the current source source. Integer accuracy can be improved.

3 is an overall configuration diagram of a transmission line measuring apparatus according to a first embodiment of the present invention.

Referring to FIG. 3, the transmission line line constant measuring apparatus 100 includes a voltmeter 110 and an ammeter 120 including a first voltmeter module 111, a second voltmeter module 112, and a third voltmeter module 113. ), A data correction unit 130, a line constant calculation unit 140, a current source source 160, a control unit 170, and a storage unit 180.

The voltmeter 110 includes a first voltmeter module 111 that measures a voltage between two transmission lines, a second voltmeter module 112 and a third voltmeter module 113 that measures a voltage flowing between the two transmission lines and the ground. Measure the voltage of).

The ammeter 120 measures a current measurement value, which is a current flowing through two transmission lines.

The line constant measurement object measures current measurement value, line voltage and ground voltage for each group so that a plurality of transmission lines can be measured by using two transmission lines as a group for a plurality of transmission lines.

The data correction unit 130 calculates a correction voltage value correcting the influence of the induced voltage on the two transmission lines by using the line voltage and the ground voltage measured by the voltmeter 110.

The line constant calculation unit 140 calculates the line constant using the correction voltage value calculated by the data correction unit 130 and the current measurement value measured by the ammeter 120.

That is, the line constant calculation value of each of a plurality of power transmission lines is calculated.

The current source source 160 is connected to two transmission lines each having one end grounded to apply a set current having a specific size and a phase angle of 0 °.

The controller 170 controls the ammeter and the voltmeter to measure the current measurement value and the line voltage and the ground voltage at the same time.

Here, the method of measuring at the same time may be time synchronized through a GPS receiver or data communication.

The storage unit 180 stores line constant calculation values of each of the plurality of power transmission lines.

4 is a view for explaining the transmission line line constant measurement in the first order according to FIG. 3, Figure 5 is a view for explaining the transmission line line constant measurement in the second order, Figure 6 is a third order It is a figure for demonstrating measuring line constant of a furnace transmission line.

A, B, and C are the transmission line to be measured for line constant, and E is the land.

The transmission line line constant measuring apparatus 100 includes a voltmeter 110, an ammeter 120, a data corrector 130, and a line constant calculator 140. An average calculator 150, a current source source 160, and the like.

In order to measure the transmission line constant during a truce, first, the transmission line A, B, and C should be cut off.

Referring to FIG. 4, a first end of the truncated transmission lines A, B, and C is grounded.

Then, the voltage V _AB applied to the current source source 160 through the line constant measuring device 100 on the grounded transmission lines A and B, the voltage between the transmission line A and the ground E (V _AE ), the transmission line B and the ground The connection between the voltage V _BE and the current I _AB of the current source source 160 can be measured.

Then, and in then applying a current (I _AB) is set by the current source the source 160 using the voltmeter 110 is a voltage (V _AB), voltage (V _AE) between the transmission lines A and the ground E, transmission lines B The set current I _AB information is measured using the voltage V _BE between the ground E and the ammeter 120.

Using the measured voltages (line voltage and ground voltage), the calculated voltage after correcting the influence of the induced voltage on the transmission lines A and B through the data correction unit 130 is calculated as follows.

V _(correction) = V _AE + V _AB -V _BE

The line constant is calculated using the corrected voltage information and current information with the influence of induced voltage.

(Z _a + Z _b ) = (V _AE + V _AB -V _BE ) / I _AB

Therefore, the line constant values for the transmission lines A and B are calculated.

Referring to FIG. 5, the second order is grounded at one end of B, C, and earth E of the truncated transmission lines A, B, and C. FIG.

Then, the voltage (V _BC ) applied to the current source source 160 through the line constant measuring device 100 on the grounded transmission lines B and C, the voltage between the transmission line B and the ground E (V _BE ), the transmission line C and the ground The voltage V _CE and the current I _BC of the current source source 160 are connected so that the measurement can be performed.

Subsequently, after applying the set current I _BC through the current source source 160, the voltage V _BC , the voltage between the transmission line B and the ground E, V _BE , and the transmission line C The set current I _BC information is measured using the voltage V _CE between the earth E and the ammeter 120.

Using the measured voltages (line voltage and ground voltage), the correction voltage after correction of the influence of the induced voltage on the transmission lines B and C through the data correction unit 130 is calculated as follows.

V _(correction) = V _BE + V _BC -V _CE

The line constant is calculated using the corrected voltage information and current information with the influence of induced voltage.

(Z _B + Z _C ) = (V _BE + V _BC -V _CE ) / I _BC

Therefore, the line constant values for the transmission lines B and C are calculated.

Referring to FIG. 6, the third sequence is grounded at one end of C, A and the ground E of the truncated transmission lines A, B, and C. FIG.

Then, the voltage (V _CA ) applied to the current source source 160 through the line constant measuring device 100 on the grounded transmission line C and A, the voltage between the transmission line C and the ground E (V _CE ), the transmission line A and the ground voltage E (V _AE), and a wiring to be measured current (I _CA) source of the current source 160. the

Subsequently, after the set current I _CA is applied through the current source source 160, the voltage V _CA , the voltage between the transmission line C and the ground E, V _CE , and the transmission line A and the voltage are measured using the voltmeter 110. The set current I _CA information is measured using the voltage V _AE between the earth E and the ammeter 120.

Using the measured voltages (line voltage and ground voltage), the correction voltage after correction of the influence of the induced voltage on the transmission lines C and A through the data correction unit 130 is calculated as follows.

V _(correction) = V _CE + V _CA -V _AE

The line constant is calculated using the corrected voltage information and current information with the influence of induced voltage.

(Z _C + Z _A ) = (V _CE + V _CA -V _AE ) / I _CA

Therefore, the line constant values for the transmission lines C and A are calculated.

As described above, when a line constant is obtained by using two transmission lines as a group for a plurality of transmission lines A, B, and C, which are subject to measurement of the line constant,

(Z _a + Z _b ) = (V _AE + V _AB -V _BE ) / I _AB

(Z _B + Z _C ) = (V _BE + V _BC -V _CE ) / I _BC

(Z _C + Z _A ) = (V _CE + V _CA -V _AE ) / I _CA

Calculate the line constants Z _A , Z _B , and Z _C using the values of (Z _a + Z _b ), (Z _B + Z _C ), and (Z _C + Z _A ) in each group.

After calculating the line constants of each transmission line once in this way, through the current source source 160, a plurality of times of setting currents having different magnitudes are applied and re-measured, and the measured values of each group are used. Calculate the line constant of the furnace.

Z _{A +1} , Z _{B +1} , Z _{C +1} / Z _{A +2} , Z _{B +2} , Z _{C +3} ............... Z _{A + N} , Z _{B + N} , Z _{C + N}

The line constant calculation value calculated by the set number of times for each of the plurality of transmission lines A, B, and C is arithmetically averaged through the average calculating unit 150 to determine the line constant of the transmission line to be measured.

In addition, the average calculating unit 150 may determine the line constant by performing arithmetic average only on the values of (Z _a + Z _b ), (Z _B + Z _C ), and (Z _C + Z _A ) of each group.

7 is a flowchart illustrating a transmission line measuring method.

Referring to FIG. 7, in order to measure the transmission line constant, first, a plurality of transmission lines that are the targets of the line constant measurement are suspended (S100).

Ground the one end of the two transmission lines as a group for a plurality of transmission lines, connect the line constant measuring device to the two grounded transmission lines, and apply the set current through the current source source. S110).

Here, the set current is applied with a set current having a specific magnitude and a phase angle of 0 °.

Subsequently, a current measurement value, which is a current flowing through the two transmission lines, is measured by an ammeter (S120).

The voltage between lines of the two transmission lines and the ground voltage of each of the two transmission lines are measured by a voltmeter (S130).

In other words, the method of measuring the voltage may be divided into measuring the voltage between the two transmission lines, and measuring the voltage flowing between each of the two transmission lines and the ground.

Then, the current measurement value of the ammeter and the line voltage and the ground voltage of the voltmeter are measured at the same time.

Subsequently, the data correction unit calculates a correction voltage value correcting the influence of the induced voltage on the two transmission lines by using the line voltage and the ground voltage measured in the step of measuring the voltage (S140).

Then, the line constant calculation unit calculates one group line constant using the current measurement value measured in the step of measuring the correction voltage value and the current measurement value calculated in the step of calculating the correction voltage value (S150). .

In this case, the control unit checks whether the plurality of transmission lines are measured as a group with respect to the plurality of transmission lines that are the object of measuring the line constant (S160). Replace the remaining group connections and repeat the current measurement, line voltage and ground voltage measurements for each group.

Subsequently, when all of the plurality of transmission lines have been measured, the line constants for each of the plurality of transmission lines for each group are calculated (S180), and then accumulatively stored (S190).

8 is an overall configuration diagram of a transmission line measuring apparatus according to a second embodiment of the present invention.

Referring to FIG. 8, the transmission line line constant measuring apparatus 100 includes a voltmeter 110 and an ammeter 120 including a first voltmeter module 111, a second voltmeter module 112, and a third voltmeter module 113. ), A data corrector 130, a line constant calculator 140, an average calculator 150, a current source source 160, a controller 170, and a storage 180.

  The voltmeter 110 includes a first voltmeter module 111 for measuring the voltage between two transmission lines using two transmission lines as a group, and a second voltmeter module for measuring the voltage flowing between the two transmission lines and the ground ( 112 and the voltage of the third voltmeter module 113.

The ammeter 120 measures a current measurement value, which is a current flowing through two transmission lines.

The line constant measurement object measures current measurement value, line voltage and ground voltage for each group so that a plurality of transmission lines can be measured by using two transmission lines as a group for a plurality of transmission lines.

The data correction unit 130 calculates a correction voltage value correcting the influence of the induced voltage on the two transmission lines by using the line voltage and the ground voltage measured by the voltmeter 110.

The line constant calculating unit 140 uses the correction voltage value calculated by the data compensating unit 130 and the current measurement value measured by the ammeter 120 to perform a plurality of times for each or a plurality of transmission lines that are line constant measurement targets. The line constant calculation value to which the set current different from the set size is applied is calculated.

The average calculating unit 150 calculates the line constant calculation value or the line constant for each group based on the line constant calculation values calculated by applying a set current having a different size set for each of a plurality of transmission lines or for each group. Arithmetic average is used to calculate the line constant of the transmission line.

The current source source 160 is connected to two transmission lines each having one end grounded, and the set current is repeatedly applied as many times as many times through the control unit 170. do.

The controller 170 controls the ammeter 120 and the voltmeter 110 to measure the current measurement value, the line voltage, and the ground voltage of each group at the same time.

In addition, the controller 170 controls the ammeter and the voltmeter to measure the current measurement value and the line voltage and the ground voltage at the same time.

Here, the method of measuring at the same time may be time synchronized through a GPS receiver or data communication.

The storage unit 180 accumulates and stores line constant calculation values calculated for each of a plurality of transmission lines or for each group.

9 is a flowchart illustrating a method of measuring a transmission line according to FIG. 8.

Referring to FIG. 9, in order to measure the transmission line constant, first, a plurality of transmission lines that are the targets of line constant measurement are truncated (S200).

One end of each of the two transmission lines is grounded as a group for a plurality of transmission lines, and a line constant measuring device is connected to the grounded transmission line, and then a set current is applied through a current source source. S210).

Here, the set current is applied with a set current having a specific magnitude set at the beginning and a phase angle of 0 °.

Subsequently, a current measurement value, which is a current flowing through the two transmission lines, is measured by an ammeter (S220).

Then, the line voltage between the two transmission lines and the ground voltage of each of the two transmission lines are measured by the voltmeter (S230).

In other words, the method of measuring the voltage may be divided into measuring the voltage between the two transmission lines, and measuring the voltage flowing between each of the two transmission lines and the ground.

Then, the current measurement value of the ammeter and the line voltage and the ground voltage of the voltmeter are measured at the same time.

Subsequently, the data correction unit calculates a correction voltage value correcting the influence of the induced voltage on the two transmission lines using the line voltage and the ground voltage measured in the step of measuring the voltage (S240).

Then, the line constant calculator calculates a correction voltage value and calculates a correction voltage value and a current measurement value measured in the step of measuring the current measurement value. The line constant is calculated (S250).

Then, the line constant calculation unit calculates one group line constant using the current measurement value measured in the step of measuring the correction voltage value and the current measurement value calculated in the step of calculating the correction voltage value (S250). .

And, if all of the plurality of transmission lines that are track constant measurement targets are measured (S260), and if not all of them are measured, the connection of the remaining group belonging to the track constant measurement target is replaced (S270) and the current measured values of each group and Repeat the procedure for measuring line voltage and earth voltage.

Subsequently, when all of the plurality of power transmission lines have been measured, the line constants for each of the plurality of power transmission lines for each group are calculated (S280), and then accumulated and stored (S290).

Then, in order to improve transmission line line constant measurement accuracy, after confirming whether setting rectifications having different sizes are applied to each other as many times as the set number of times (S300), when it is determined as 'no', current sources are controlled (S310) to size each other. Is different, and a setting current having a phase angle of 0 ° is applied a number of times of setting, and the sequence of measuring the current measurement value, line voltage, and ground voltage for each group is repeated from step 210.

After that, when setting rectifications having different sizes are applied as many times as the number of times set, the arithmetic average of the line constant calculation values for each of the plurality of transmission lines accumulated and stored in step S290 is used to calculate the line constant of the transmission line to be measured. Determine (S320).

10 is a flowchart illustrating a transmission line measuring method according to a third embodiment of the present invention.

Referring to FIG. 10, in order to measure the transmission line constant, first, a plurality of transmission lines that are line constant measurement targets are ceased (S400).

One end of each of the two transmission lines is grounded as a group for a plurality of transmission lines, and a line constant measuring device is connected to the grounded transmission line, and then a set current is applied through a current source source. S410).

Here, the set current is applied with a set current having a specific magnitude set at the beginning and a phase angle of 0 °.

Subsequently, a current measurement value, which is a current flowing through the two transmission lines, is measured by an ammeter (S420).

In addition, the line voltage between the two transmission lines and the ground voltage of each of the two transmission lines are measured by the voltmeter (S430).

In other words, the method of measuring the voltage may be divided into measuring the voltage between the two transmission lines, and measuring the voltage flowing between each of the two transmission lines and the ground.

Then, the current measurement value of the ammeter and the line voltage and the ground voltage of the voltmeter are measured at the same time.

Subsequently, the data correction unit calculates a correction voltage value correcting the influence of the induced voltage on the two transmission lines by using the line voltage and the ground voltage measured in the step of measuring the voltage (S440).

Then, the line constant calculator calculates a correction voltage value and calculates a correction voltage value and a current measurement value measured in the step of measuring the current measurement value. The line constant is calculated (S450).

In operation S450, the line constant calculation unit calculates one group line constant using the current measured value measured in the step of measuring the corrected voltage value and the current measured value calculated in the step of calculating the corrected voltage value (S450). .

In addition, if all of the plurality of transmission lines that are the track constant measurement targets are measured (S460), and if not all of them are measured, the wirings of the remaining groups belonging to the track constant measurement target are replaced (S470) and the current measured values of each group and Repeat the procedure for measuring line voltage and earth voltage.

Subsequently, when all of the plurality of transmission lines have been measured, the plurality of transmission line parameters for each group are calculated (S480), and then accumulatively stored (S490).

Then, in order to improve the accuracy of measuring transmission line constants, after confirming whether setting rectifications having different sizes are applied as many times as the number of setting times (S500), when it is determined as 'no', the current source sources are controlled (S510) and sized to each other. Is different, and a setting current having a phase angle of 0 ° is applied a plurality of times of setting, and the steps of measuring current measurement value, line voltage, and ground voltage between groups are repeated from step S410.

After that, if setting rectifications having different sizes are applied as many times as the number of times set, the arithmetic mean of the track constants calculated for each of the plurality of transmission line groups accumulated and stored in step S490 is determined to determine the line constant of the transmission line to be measured. (S520).

Therefore, by calculating a line constant using voltage and current information in which the influence of induced voltage is compensated by powering down a plurality of transmission lines and performing arithmetic averaging, not only does it improve accuracy of line constant measurement, but also improves reliability of power system planning / operation. And cost reduction, and it can be used for system protection field such as relay correction and fault point expression to prevent relay misoperation, and it can be used for system analysis field such as tide calculation and fault calculation to reduce trouble prevention and investment cost. .

Although a preferred embodiment according to the present invention has been described above, it is possible to modify in various forms, and those skilled in the art to various modifications and modifications without departing from the claims of the present invention It is understood that it may be practiced.

100: transmission line line constant measuring device 110: voltmeter
111: first voltmeter module 112: second voltmeter module
113: third voltmeter module 120: ammeter
130: data correction unit 140: line constant calculation unit
150: average calculation unit 160: current source source
170: control unit 180: storage unit

Claims (17)

A current source source connected to two transmission lines, one end of each of which is grounded to apply a set current;
An ammeter for measuring a current measurement value that is a current flowing through the two transmission lines;
A voltmeter for measuring a line voltage, which is a voltage between the two transmission lines, and an earth voltage of each of the two transmission lines;
A data correction unit for calculating a correction voltage value correcting the influence of induced voltages on the two transmission lines using the line voltage measured by the voltmeter and the ground voltages;
And a line constant calculation unit configured to calculate a line constant for the track constant measurement targets including the two power transmission lines using the correction voltage value and the current measurement value.
The method according to claim 1,
The track constant measurement objects
Transmission line line constants characterized by measuring the current measurement value, line voltage, and ground voltage for each group so that the plurality of power lines can be measured by using two power lines as a group for a plurality of power lines. Measuring device. The method according to claim 1,
The voltmeter,
A first voltmeter module measuring a voltage between the two transmission lines;
A second voltmeter module for measuring a voltage flowing between the two transmission lines and the ground; And a third voltmeter module.
The method according to claim 1,
A control unit controlling the current meter and the voltmeter to measure the current measurement value and the line voltage and the ground voltage at the same time, and controlling the current source source to apply a set current having a different size to the plurality of transmission lines by a plurality of settings; Transmission line track constant measuring device further comprising.
The method according to claim 1,
The current source source is,
An apparatus for measuring transmission line constants, characterized in that a set current having a different size and having a phase angle of 0 ° is repeatedly applied to a transmission line as many times as set. The method according to claim 1,
The line constant calculation unit,
A line constant calculation value of each of a plurality of power transmission lines, and a line constant calculation value to which a set current having a different set size applied to each of the plurality of power transmission lines or each group is applied. Track constant measuring device.
The method according to claim 1,
On the basis of the line constant calculation values calculated by applying a different setting current set in a plurality of times for each of a plurality of transmission lines or for each group, arithmetic average of the respective line constant calculation values or the line constant calculation values for each group is applied to the corresponding transmission line. Transmission line line constant measuring apparatus further comprises; an average calculation unit for calculating the line constant of the furnace.
The method according to claim 1,
And a storage unit for accumulating and storing track constant calculation values calculated for each of a plurality of transmission lines or for each group.
Applying, by a current source source, a set current connected to two transmission lines each having one end grounded;
Measuring, by an ammeter, a current measurement value which is a current flowing in the two transmission lines;
Measuring, by a voltmeter, the line voltage between the two transmission lines and the ground voltages of each of the two transmission lines;
Calculating, by a data correction unit, a correction voltage value correcting the influence of induced voltages on the two transmission lines using the line voltage and the ground voltage measured in the measuring of the voltage; And
Calculating, by the line constant calculation unit, line constants for the line constant measurement objects including two transmission lines by using the calculated correction voltage value and the measured current measurement value. Transmission line measurement method.
The method according to claim 9,
The track constant measurement objects
Transmission line line constant, characterized by measuring the current measurement value, line voltage and ground voltage of each group so that the plurality of power lines can be measured by using two power lines as a group for a plurality of power lines. How to measure.
The method according to claim 9,
And controlling the ammeter and the voltmeter to measure the current measured value, the line voltage, and the ground voltage at the same time. 2.
The method of claim 11,
In the controlling step,
Transmission line line constant measurement method characterized in that for controlling the current source source to apply a set current having a different size to the plurality of transmission lines by a plurality of settings.
The method according to claim 9,
In the step of measuring the voltage,
Measuring a voltage between the two transmission lines;
And measuring a voltage flowing between each of the two transmission lines and the ground.
The method according to claim 9,
In the step of applying the set current,
The transmission line constant measurement method, characterized in that for applying a plurality of times the set current having a phase angle of 0 ° to the two transmission lines to the transmission line as many times set.
The method according to claim 9,
The step of calculating the line constant
A line constant calculation value of each of a plurality of power transmission lines, and a line constant calculation value to which a set current having a different set size applied to each of the plurality of power transmission lines or each group is applied. Measurement method of track constant.
The method according to claim 9,
On the basis of the line constant calculation values calculated by applying a setting current having a different magnitude set for each of a plurality of transmission lines or for each group by the average calculation unit, the line constant calculation value or the line constant calculation value for each group is calculated. Calculating a line constant of the corresponding transmission line by performing an arithmetic mean of the transmission line. The method according to claim 9,
And storing and storing, by the storage unit, the line constant calculation values calculated for each of the plurality of power transmission lines or for each group.

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