KR101868394B1 - Phase information of powerline processing method - Google Patents

Abstract

A phase information processing method for determining phases of power lines of a plurality of phases, the method comprising: receiving a phase information request signal from a master device and transmitting a relay signal for relaying the phase information request signal; The first slave device receives a phase information response signal, which is a response signal to the relay signal, from the second slave device and transmits information on the phase information response signal to the master device.

Description

[0001] The present invention relates to a power line phase information processing method,

The present invention relates to a technique for processing phase information of a plurality of power lines having a plurality of phases.

As a related art of the present invention, Korean Patent No. 10-1337384 can be referred to.

According to the patent, power can be transmitted through a plurality of power lines having different phases. At this time, power lines of R phase, S phase, and T phase can be extended in parallel in the high voltage transmission line. The high voltage power can be converted to either medium voltage power or low voltage power by a power converter (such as a transformer).

The power consumer can receive either high voltage power, medium voltage power, or low voltage power depending on the level of power used. The power consumer may be connected to all three-phase power lines, but only one power line, that is, a single phase power line, may be drawn. Ordinary power converters can be installed on the electric pole or on the ground / underground.

Each power consumer is equipped with a watt hour meter for calculating the amount of power used by the power consumer and may utilize the power line as a communication line to receive information on the amount of power used from the power consumer. At this time, it is necessary to distinguish which power supply line is connected to which power supply line.

In the present invention, it is desired to provide a method of processing information on a power line that can distinguish which power supply line is connected to which power supply line.

The power line phase information determination method according to an aspect of the present invention is a method of determining power line phase information in which the first device 31 transmits a phase information request signal to the second device 32 connected to the second power line 42 to the first time point 51 A first acquisition step in which the second device 32 acquires a first phase value 101 of the power voltage of the first phase power line 41 or 42 or 43 at the first time point 51, Acquiring a second phase value (102) of the power voltage of the second power line at a second time (51) at which the second device (32) received the phase information request signal, To the third device (33) connected to the third power line, the third device (33) being connected to the second power line (42) at the third time point (52) Obtaining the third phase value 103 of the power voltage of the third power line 43 at the fourth time point 52 when the third device 33 receives the relaying signal, The second acquisition stage, which acquires the fourth phase value 104, , The second device or a device different from the second device is connected to the first phase power line (12) of the second power line (12) using the first phase value (101) and the second phase value 41, 42, 43), wherein the third device or a device different from the third device is configured to generate the third phase value (103) and the fourth phase Generating second information on the power voltage phase difference of the third power line (43) relative to the second power line (42) using the value (104), and generating second information on the power voltage phase difference with respect to the second power line And another device may determine information on the phase of the power voltage of the third power line using the first information and the second information.

At this time, the first device may be a master device, and the second device and the third device may be a slave device.

At this time, the second device may previously store information about the power line of the plurality of power lines and the information about the first phase value at the first time point.

Alternatively, the first device may be configured to include in the phase information request signal information about the first phase power line, the power line of any of the plurality of phase power lines, and information about the first phase value.

At this time, any two power lines of the first phase power line, the second power line, and the third power line may be power lines of the same phase, or may be power lines of different phases.

The phase information request signal may be a phase of the reference power line PL1 that is a reference, PL1 (phase) "of the power voltage of the reference power line PL1 and a first phase (N1_T_PL1 (theta1)) of the power voltage of the reference power line PL1 at the time when the first device transmits the phase information request signal Wherein the first transmission step includes a first reception step in which the second device N2 receives the phase information request signal, the second device transmits a phase information request signal at a time point when the second device receives the phase information request signal Determining a second phase (N2_R_PL2 (theta2)) of a power voltage of a second power line (PL2) coupled to the second device, the second device having a first phase (theta1) (PN2 (phase)) of the second power line PL2 by comparing the first power line PL2 with the second power line PL2, (PN2 (phase)) of the second power line PL2 ", and a second transmission step of transmitting the relay signal at the time when the second device transmits the relay signal, (N2_T_PL2 (theta3)) of the power voltage of the second power line (PL2); a second receiving step in which the third device (N3) receives the relaying signal; The third device determines a fourth phase (N3_R_PL3 (theta4)) of the power voltage of the third power line (PL3) connected to the third device at the time the third device receives the relaying signal, The third device compares the third phase theta3 with the fourth phase theta4 to determine the "information about the phase of the third power line PL3 (PN3 (phase)") .

A method of determining power line phase information according to another aspect of the present invention includes the steps of: receiving a phase information request signal from a master device (13) by a first slave device (11); The first slave device receiving a phase information response signal, which is a response signal to the relay signal, from the second slave device 12, and transmitting the phase information response signal to the first slave device, And transmitting information about the information response signal to the master device.

At this time, the first slave device includes a plurality of coupling devices, and is coupled to power lines (1, 2) of a plurality of phases through the plurality of coupling devices. In the step of transmitting the relay signals, The first slave device may be adapted to provide the relaying signal to all of the plurality of phase power lines via the plurality of coupling devices.

Alternatively, the first slave device may include one coupling device, coupled to the first power line (1) through the one coupling device, and in the step of transmitting the relay signal, the first slave device The apparatus may be adapted to provide the relaying signal to the first power line via the one coupling device.

At this time, the first slave device or the master device is connected to the first slave device and is a first phase of a commercial power voltage provided through a first power line transmitting the phase information request signal, The first slave device, the second slave device, or the master device is connected to the second slave device, and the first slave device, the second slave device, or the master device is connected to the second slave device Determining a second phase of a commercial power voltage provided via a second power line carrying the relaying signal, the second phase at a point of time when the second slave device has received the relaying signal; The slave device, the second slave device, or the master device transmits information regarding the time at which the phase information request signal was transmitted, the time at which the relay signal was transmitted Beams, the second power line to the first phase, and based on the second phase may comprise the step of determining if the response to any of the power line on the plurality.

In addition, the first power line and the second power line may be power lines belonging to the same phase among the power lines of the plurality of phases, or may be power lines belonging to different phases.

At this time, information on the time when the phase information request signal is transmitted is a phase [R] of a commercial power voltage provided through an R phase power line among power lines of the plurality of phases, S] of the commercial power voltage provided through the S phase power line among the power lines of the plurality of phases or the information about the phase [S] at the time point when the phase information request signal is transmitted ]. ≪ / RTI >

Alternatively, the information on the time when the phase information request signal is transmitted may be a phase [R] of a commercial power voltage provided through an R phase power line among the power lines of the plurality of phases, S] at a time point when the phase information request signal is transmitted, as phase [S] of a commercial power voltage provided through an S phase power line among power lines of the plurality of phases, Of the plurality of phase power lines, or the phase [T] of the commercial power voltage provided through the T phase power line of the plurality of phase power lines, information about the phase [T] at the time point of transmission of the phase information request signal have.

The information about the time at which the relaying signal is transmitted may be a phase [R] of a commercial power voltage provided through the R phase power line among the plurality of power lines, S] of the commercial power voltage provided through the S-phase power line among the power lines of the plurality of phases as information on the phase [S] at the time when the relay signal is transmitted, The phase [T] of the commercial power voltage provided through the T phase power line among the plurality of phase power lines, and information about the phase [T] at the time the relay signal is transmitted.

Here, the first power line and the second power line may be any one of the R phase power line, the S phase power line, and the T phase power line.

At this time, the master device, the first slave device, and the second slave device may all have information about a reference time point at which the phase information request signal is transmitted.

In addition, the master device, the first slave device, and the second slave device may all have information about a reference time point at which the relaying signal is transmitted.

Also, the phase information request signal may include information about a reference time point at which the phase information request signal is transmitted.

In addition, the phase information request signal may further include information on the identifier of the master device.

Also, the relay signal may include information about a reference time point at which the relaying signal is transmitted.

Further, the relay signal may further include information on the identifier of the first slave device.

1 is a view for explaining a phase information processing method according to a first embodiment of the present invention.
Fig. 2 shows examples of waveforms of signals provided to the power lines of the R phase, the S phase, and the T phase, respectively, in accordance with the first embodiment of the present invention.
3 is a view for explaining a phase information processing method according to a second embodiment of the present invention.
4 is a flowchart illustrating a method of processing phase information according to an embodiment of the present invention.
5 is a view for explaining a phase information processing method according to a third embodiment of the present invention.
6 is a view for explaining a phase information processing method according to the third embodiment of the present invention.
7 is a view for explaining a phase information processing method according to the fourth embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein, but may be implemented in various other forms. The terminology used herein is for the purpose of understanding the embodiments and is not intended to limit the scope of the present invention. Also, the singular forms as used below include plural forms unless the phrases expressly have the opposite meaning.

≪ Embodiment 1 >

1 is a view for explaining a phase information processing method according to a first embodiment of the present invention.

The first power line 3, the second power line 1 and the third power line 2 and the high voltage power transmitted through the high voltage power line have different phases through the transformer (or power conversion device) 3-phase low-voltage power lines. For example, the first power line 3 may be an R phase power line, the second power line 1 may be an S phase power line, and the third power line 2 may be a T phase power line.

The low voltage power on the three phases can be transmitted to each power consumer through the first power line 3, the second power line 1, and the third power line 2, respectively. Communication between the power line communication devices connected thereto via the first power line 3, the second power line 1, and the third power line 2 can also be made.

At this time, it is necessary to distinguish which of the first power line 3, the second power line 1, and the third power line 2 is connected to the power line communication device installed in each power consumer at the time of communication.

Each power line may have a master device or a slave device coupled through a coupling device. At this time, one slave device may be coupled to each power line, or a plurality of slave devices may be coupled. That is, the slave device includes one or more coupling devices, and may be coupled to one or more power lines through the one or more coupling devices. Master devices and slave devices herein may be collectively referred to as "devices".

When the length of the power line between the master device and each slave device is long, a communication signal exchanged between the devices, for example, a phase information request signal transmitted from the master device to the slave device, or a phase information response signal transmitted from each slave device to the master device Data loss may occur. Accordingly, in order to prevent data loss of signals such as the phase information request signal and the phase information response signal, the method according to an embodiment of the present invention can process phase information as follows.

The first slave device 11 may be coupled to the second power line 1 and the third power line 2 and the second slave device 12 may be coupled to the third power line 2 , The master device 13 may be coupled to the first power line 3, the second power line 1, and the third power line 2. The first slave device 11, the second slave device 12, and the master device 13 may all be coupled to the neutral line N, although not shown. The first slave device 11 may be capable of transmitting and receiving a relay signal to all of the plurality of power lines, for example, the second power line 1 and the third power line 2 through a plurality of coupling devices.

The first slave device 11 can receive the phase information request signal from the master device 13 via the second power line 1. [ The 'phase information request signal' allows the slave devices connected to the first power line 3, the second power line 1 and the third power line 2 to control the power line to which they are connected in the three- And to request the master device 13 to return information on which phase it is connected to.

At this time, the first slave device 11 can determine the fourth phase of the commercial power voltage (for example, 50 Hz or 60 Hz) provided through the second power line 1 at the time when the first slave device 11 receives the phase information request signal . Or the first slave device 11 does not determine the fourth phase and transmits the information about the fourth phase to the master device 13 so that the master device 13 may be determined to determine the fourth phase have.

 The first slave device 11 may then transmit a relaying signal for relaying the phase information request signal to the second slave device 12 via the third power line 2. [ The 'relay signal' allows the slave devices connected to the first power line 3, the second power line 1 and the third power line 2 to control the power line to which they are connected to any phase of the three- To the first slave device 11. The first slave device 11 may be connected to the first slave device 11 via a network. In this case, the first slave device 11 can be regarded as a relay device.

The first slave device 11 can receive the phase information response signal which is the response signal to the relay signal from the second slave device 12. [ The first slave device 11 can transmit information on the phase information response signal to the master device 13. [

At this time, the fifth phase of the commercial power voltage provided to the third power line 2 at the time when the second slave device 12 receives the relay signal is the same as the fifth phase of the commercial power voltage supplied to the first slave device 11, (12), or the master device (13).

That is, the phase information response signal may be information on the fifth phase or information on a result of the fifth slave device 12 determining the fifth phase.

If the phase information response signal is the information related to the fifth phase, the first slave device 11 may determine the fifth phase and transmit the fifth phase to the master device 13, The master device 13 may directly transmit the data to the master device 13 to determine the fifth phase.

Thereafter, the first slave device 11, the second slave device 12, or the master device 13 transmits information about the time at which the phase information request signal was transmitted, information about the time at which the relay signal was transmitted, Based on the fourth phase and the fifth phase, it is possible to determine which of the power lines of the plurality of phases the third power line (2) corresponds to.

At this time, the information on the time when the phase information request signal is transmitted is a first phase [R] of the commercial power voltage provided through the first power line (= R phase power line) 3 among the plurality of phase power lines, And information about the first phase [R] at the time when the phase information request signal is transmitted.

Alternatively, as the second phase [S] of the commercial power voltage provided through the second power line (= S phase power line) 1 of the plurality of phase power lines, the second phase [ May be information on phase [S].

Or the third phase [T] of the commercial power voltage provided through the third power line (= T phase power line) 2 of the plurality of phase power lines, May be information on the phase [T].

The information on the time when the relay signal is transmitted is the eleventh phase [R] of the commercial power voltage provided through the first power line (= R phase power line) 3 of the plurality of phase power lines, May be information on the eleventh phase [R] at the time of transmission.

Alternatively, the information on the time at which the relaying signal is transmitted is the twelfth phase [S] of the voltage provided through the second power line (= S phase power line) 1 of the plurality of phase lines, And information on the twelfth phase [S] at the time of transmission.

Or a thirteenth phase [T] of a voltage provided through a third power line (= T phase power line) 2 of the plurality of phase power lines, the thirteenth phase [T] Lt; / RTI >

At this time, both the first slave device 11, the second slave device 12, and the master device 13 have information about the reference time point at which the phase information request signal is transmitted and a reference time point at which the relay signal is transmitted Information may be stored.

The phase information request signal may include information about a reference time point at which the phase information request signal is transmitted, and the relay signal may include information about a reference time point at which the relay signal is transmitted.

Further, the phase information request signal may further include information on the identifier of the master device, and the relay signal may further include information on the identifier of the first slave device.

2 is a waveform diagram of a power voltage signal provided to power lines of a first phase (= R phase), a second phase (= S phase), and a third phase (= T phase), respectively, according to a first embodiment of the present invention; As shown in FIG. That is, FIG. 2 is a view for explaining information about the time at which the phase information request signal and the relay signal are transmitted.

Fig. 2 (a) shows the waveform 23 of the power voltage supplied to the first phase power line (R phase power line), and Fig. 2 (b) 2 (c) shows the waveform 22 of the power voltage provided to the third phase power line (T phase power line).

The abscissa of the graph shown in Fig. 2 represents time and the ordinate represents the magnitude of the waveform of the power voltage.

≪ Phase information request signal Embodiment 1 >

If the information about the request that the information signal transmitting time of the first-phase power line (= R phase power line), (3) a first phase of the voltage of the commercial power supplied through [R], for example, θ _R = 0 °. That is, θ _R The phase information request signal S1 may be transmitted at a time point t1 = 0 °, and the time point t1 may be the first reference time point.

At this time, the reception time point of the phase information request signal S1 may be t1 +? T. In general, the value of [Delta] t may be a very small value. That is, the phase information request signal S1 can be received immediately at the time of transmission.

When the first slave device 11 receives the top information request signal S1 from the master device 3 at the first reference time t1, the first slave device 11 at the first reference time t1, The first phase? ₁ in the second power line 1 coupled to the second power line 1 may be 120 degrees.

At this time, the first phase [R] of the first reference time point t1 is θ _R = 0 [deg.], The phase difference is 120 [deg.] With the fourth phase. Therefore, it can be determined that the first slave device 11 is coupled to the second phase power line (= S phase power line) 1. The determination may be made by the master device 13 or the first slave device 11 as described above.

<Phase Information Request Signal Embodiment 2>

Alternatively, when the information on the time when the phase information request signal S2 is transmitted is the second phase [S] of the commercial power voltage provided through the second phase power line (= S phase phase power line) 1, _S = 0 °. That is, _S θ The phase information request signal S2 can be transmitted at a time point t2 = 0 ° and the time point t2 can be the first reference time point.

At this time, the reception time point of the phase information request signal S2 may be t2 +? T. In general, the value of [Delta] t may be a very small value. That is, the phase information request signal S2 can be received immediately at the time of transmission.

When the first slave device 11 receives the top information request signal S2 from the master device 3 at the first reference time t2, the first slave device 11 at the first reference time t2, The fourth phase? ₁ in the second power line 1 coupled to the second power line 1 may be 0 degrees.

At this time, the second phase [S] of the first reference time point t2 is θ _S = 0, it can be understood that no phase difference is generated between the fourth phase and the fourth phase. Therefore, it can be determined that the first slave device 11 is coupled to the second phase power line (= S phase power line) 1. The determination may be made by the master device 13 or the first slave device 11 as described above.

<Phase Information Request Signal Embodiment 3>

Alternatively, when the information on the time at which the phase information request signal S3 is transmitted is the third phase [T] of the commercial power voltage provided through the third phase power line (= T phase phase power line) 2, _T = 0 °. That is, θ _T The phase information request signal S3 can be transmitted at a time point t3 at which the time t3 is equal to 0 degrees and the time point t3 can be the first reference time point.

At this time, the reception time point of the phase information request signal S3 may be t3 +? T. In general, the value of [Delta] t may be a very small value. That is, the phase information request signal S3 can be received immediately at the time of transmission.

When the first slave device 11 receives the top information request signal S3 from the master device 3 at the first reference time t3, the first slave device 11 at the first reference time t3, The fourth phase? ₁ in the second power line 1 coupled to the second power line 1 may be 240 degrees.

At this time, the third phase [T] of the first reference time point t3 is θ _T = 0 [deg.], A phase difference of -120 [deg.] With the fourth phase occurs. Therefore, it can be determined that the first slave device 11 is coupled to the second phase power line (= S phase power line) 1. The determination may be made by the master device 13 or the first slave device 11 as described above.

<Relay Signal Embodiment 1>

On the other hand, when the information on the time at which the relaying signal T 1 is transmitted is the eleventh phase [R] of the commercial power voltage provided through the first phase power line (= R phase power line) 3,_R = 180 [deg.]. That is,_R The relay signal Tl may be transmitted at a time t4 at which t1 = 180 占 and the time t4 may be the second reference time.

At this time, the relaying signal T1 can be received immediately at the time of transmission as in the case of the phase information request signal.

When the second slave device 12 receives the relay signal T1 from the first slave device 11 at the second reference time t4, the second slave device 12 at the second reference time t4, The second phase? ₂ in the third power line 2 coupled to the second power line 2 may be 60 degrees.

As described above, how the third phase power line corresponds to which phase of the plurality of power lines, the information about the time at which the phase information request signal was transmitted, the time at which the relay signal Tl was transmitted, , And the fifth phase.

When the phase information request signal embodiment 1 and the relay signal embodiment 1 are matched and selected as one embodiment, the information on the time when the phase information request signal S 1 is transmitted is θ _R = 0, and the information about the time at which the relaying signal Tl was transmitted is? _R = 180 deg., The fourth phase? ₁ is 120 deg., And the fifth phase? ₂ is 60 deg. At this time, the eleventh phase [R] of the second reference time point t2 is θ _R = 180 [deg.], It can be seen that a phase difference is generated by -120 [deg.] With the fifth phase. Therefore, it can be determined that the second slave device 12 is coupled to the third phase power line (= T phase power line) 2.

<Relay Signal Embodiment 2>

Or, in the case where the information on the relay signal (T2) transmitting time of the second-phase power line (= S-phase power line), the 12th phase of the power voltage of the commercial available through the (1) [S], for example, θ _S = 0 °. That is, _S θ The relay signal T2 may be transmitted at a time point t2 at which the time t2 is equal to 0 DEG and the time point t2 may be the second reference time point.

At this time, the relay signal T2 can be received immediately at the time of transmission, like the phase information request signal.

When the second slave device 12 receives the relay signal T2 from the first slave device 11 at the second reference time t2, the second slave device 12 at the second reference time t2, The second phase? ₂ in the third power line 2 coupled to the second power line 2 may be 120 degrees.

When the phase information request signal embodiment 2 and the relay signal embodiment example 2 are matched and selected as one embodiment, the information on the time when the phase information request signal S2 is transmitted is θ _S = 0, and the information on the time at which the relaying signal T2 was transmitted is θ _S = 0, the fourth phase [theta] ₁ is 0 [deg.], And the fifth phase [theta] ₂ is 120 [deg.].

At this time, the twelfth phase [S] of the second reference time point t2 is θ _S = 0 [deg.], A phase difference of 120 [deg.] With the fifth phase occurs. Therefore, it can be determined that the second slave device 12 is coupled to the third phase power line (= T phase power line) 2.

<Relay Signal Embodiment 3>

Or, in the case where the information on the relay signal (T3), the transmission time of the three-phase power line (= T-phase power line) (2) of claim 13, the phase of the power voltage of the commercial available through the [T], for example, θ _T = 0 °. That is, θ _T The relay signal T3 may be transmitted at a time point t3 where t3 = 0 °, and the time point t3 may be a second reference time point.

At this time, the relaying signal T3 can be received immediately at the time of transmission as in the case of the phase information request signal.

When the second slave device 12 receives the relay signal T3 from the first slave device 11 at the second reference time t3, the second slave device 12 at the second reference time t3, The fifth phase [theta] ₂ in the third power line 2 coupled to the second power line 2 may be 0 [deg.].

When the phase information request signal embodiment 3 and the relay signal embodiment 3 are matched and selected as one embodiment, the information about the time when the phase information request signal S3 is transmitted is θ _T = 0, and the information on the time at which the relaying signal T3 is transmitted is θ _T = 0 deg., The fourth phase? ₁ is 240 deg., And the fifth phase? ₂ is 0 deg. At this time, the thirteenth phase [T] of the second reference time point t2 is θ _T = 0, it can be seen that the phase difference does not occur with the fifth phase. Therefore, it can be determined that the second slave device 12 is coupled to the third phase power line (= T phase power line) 2.

&Lt; Embodiment 2 >

3 is a view for explaining a phase information processing method according to a second embodiment of the present invention.

The second embodiment, unlike the first embodiment, may be the case where the second slave device 12 is coupled to the second power line to which the first slave device 11 is coupled. That is, the first slave device 11 includes one coupling device and may be coupled to the second phase power line 1 through the one coupling device. When the first slave device 11 transmits the relay signal to the second slave device 12, it may be configured to transmit the relay signal to the second power line through the one coupling device.

 The first slave device 11 can receive the phase information request signal from the master device 13 via the second power line 1. [ At this time, the first slave device 11 can determine the second phase of the commercial power voltage provided through the second power line 1 at the time when the first slave device 11 receives the phase information request signal. Or the first slave device 11 does not determine the second phase and transmits the information about the second phase to the master device 13 so that the master device 13 may be determined to determine the second phase have.

 Then, the first slave device 11 may transmit a relay signal for relaying the phase information request signal to the second slave device 12 through the second power line 1. [ The first slave device 11 can receive the phase information response signal which is the response signal to the relay signal from the second slave device 12. [ The first slave device 11 can transmit information on the phase information response signal to the master device 13. [

At this time, the fourth phase of the commercial power voltage provided to the third power line 2 at the time when the second slave device 12 receives the relay signal is the fourth phase of the commercial power voltage supplied to the first slave device 11, (12), or the master device (13).

That is, the phase information response signal may be information on the fourth phase or information on the result of determining the fourth phase in the second slave device 12.

If the phase information response signal is information related to the fourth phase, the first slave device 11 may determine the fourth phase and transmit it to the master device 13, or may transmit the information about the fourth phase as it is It may be transmitted to the master device 13 and the master device 13 may determine the fourth phase.

Thereafter, the first slave device 11, the second slave device 12, or the master device 13 transmits information about the time at which the phase information request signal was transmitted, information about the time at which the relay signal was transmitted, Based on the second phase and the fourth phase, the third power line 2 corresponds to which phase of the plurality of phase power lines.

4 is a flowchart illustrating a method of processing phase information according to an embodiment of the present invention.

In step S10, the first slave device can receive the phase information request signal from the master device.

In step S11, the first slave device may transmit a relay signal for relaying the phase information request signal.

In step S12, the first slave device may receive a phase information response signal, which is a response signal to the relay signal, from the second slave device.

In step S13, the first slave device can transmit information on the phase information response signal to the master device.

&Lt; Third Embodiment >

The third embodiment shows a case where an apparatus for transmitting a relay signal is coupled to one power line except for the neutral line N through one coupling device.

5 is a view for explaining a phase information processing method according to a third embodiment of the present invention.

6 is a view for explaining a phase information processing method according to the third embodiment of the present invention.

6A shows a waveform of the power voltage provided to the first phase power line (R phase power line) 41, and FIG. 6B shows a waveform of the power voltage provided to the second phase power line (S phase power line) FIG. 6C shows a waveform of the power voltage provided to the third phase power line (T phase power line) 43. FIG.

The horizontal axis of the graph shown in Fig. 6 represents time and the vertical axis represents the magnitude of the waveform of the power voltage.

5 and Fig. 6 together. Fig.

The first device 31 is connected to the first power line 41 while the second device 32 is connected to the second power line 42 and the third device 33 is connected to the third power line 43 Can be connected. The first device 31, the second device 32, and the third device 33 may all be coupled to the neutral line N, although not shown.

The first device 31 may transmit the phase information request signal to the second device 32 connected to the second power line 42 at the first time point 51. [

At this time, the first device 31 determines whether the first phase power line 41 is connected to the phase information request signal based on the information on which of the plurality of phase power lines 41, 42, 43 is the power line, The information about the mobile station 101 may be included. Alternatively, the second device 32 may determine whether the first phase power line 41 at the first time point 51 is the power line of any of the plurality of power lines 41, 42, 43, Information about the value 101 may be stored in advance. For example, the first phase value 101 may be 0 degrees.

Although the first phase power line 41 is shown as the first power line 41 in this embodiment, it may be the second power line 42 or the third power line 43 in other embodiments.

The second device 32 may obtain the first phase value 101 of the power voltage of the first phase power line 41 at the first time point 51. [

The second device 32 may obtain the second phase value 102 of the power voltage of the second power line 42 at the second time point 51 when the second device 32 receives the phase information request signal. At this time, since the phase information request signal can be immediately received at the transmission time, the second time point 51 may be the first time point 51. [ For example, the second phase value 102 may be 120 degrees.

The second device 32 may transmit the relaying signal to the third device 33 connected to the third power line 43 to the third time point 52. [ The third device 33 may obtain the third phase value 103 of the power voltage of the second power line 42 at the third time point 52. [ For example, the third phase value 103 may be 0 degrees.

The third device 33 may obtain the fourth phase value 104 of the power voltage of the third power line 43 at the fourth time point 52 at which the relay device has received the relay signal. For example, the fourth phase value 103 may be 120 degrees.

A device other than the second device 32 or the second device 32 is connected to the first phase power line 41 of the second power line 42 using the first phase value 101 and the second phase value 102, To generate the first information on the relative power voltage phase difference with respect to the power voltage phase difference. At this time, the relative power voltage phase difference with respect to the first phase power line 41 may be + 120 degrees.

An apparatus different from the third apparatus 33 or the third apparatus 33 is connected to the second power line 42 of the third power line 43 by using the third phase value 103 and the fourth phase value 104 And generate second information on the relative power voltage phase difference with respect to the second power. At this time, the power voltage phase difference relative to the second power line 42 may be + 120 °.

A device different from the third device 33 or the third device 33 can determine information on the phase of the power voltage of the third power line 43 using the first information and the second information. At this time, the phase of the power voltage of the third power line 43 may be different from the phase of the first phase power line 41 by + 240 degrees.

In the third embodiment, the first device 31 may be a master device, and the second device 32 and the third device 33 may be slave devices. In the third embodiment, although the first phase power line 41, the second power line 42 and the third power line 43 are shown as power phases different from each other, in another embodiment, the first phase power line 41 ), The second power line 42, and the third power line 43 may belong to the same power line with each other.

<Fourth Embodiment>

The fourth embodiment is an embodiment related to a technique in which a third device in a shadow area determines information about the phase of a third power line to which the third device is connected.

7 is a view for explaining a phase information processing method according to the fourth embodiment of the present invention.

The first device N1 may be connected to the reference power line PL1, the second power line PL2, and the third power line PL3. The second device N2 may be connected to the second power line PL2 and the third device N3 may be connected to the third power line PL3. Also, although not shown, the first device N1, the second device N2, and the third device N3 may all be coupled to the neutral line N.

The first device N1 may transmit the phase information request signal to the second device N2. At this time, the phase information request signal includes information (PL1 (phase)) on the reference reference power line PL1 and reference power line PL1 (phase) when the first device N1 transmits the phase information request signal. (N1_T_PL1 (theta1)) related to the first phase of the power voltage of the power supply (e.g. At this time, the PL1 phase may be an R-phase, for example.

And the second device N2 may receive the phase information request signal. The second device N2 determines the second phase N2_R_PL2 (theta2) of the power voltage of the second power line PL2 connected to the second device N2 at the time when the second device N2 receives the phase information request signal ) Can be determined.

The second device N2 may determine information PN2 on the phase of the second power line PL2 by comparing the first phase theta1 and the second phase theta2 with each other. At this time, the PN2 phase may be, for example, an S-phase.

And the second device N2 can transmit the relaying signal to the third device N3. The relay signal includes information (S-phase) about the phase of the second power line PL2 and a third phase of the power voltage of the second power line PL2 at the time when the second device N2 transmits the relay signal (N2_T_PL2 (theta3)).

And the third device N3 may receive the relaying signal. The third device N3 determines the fourth phase N3_R_PL3 (theta4) of the power voltage of the third power line PL3 connected to the third device N3 at the time when the third device N3 receives the relaying signal, Can be determined.

The third device N3 may compare the third phase theta3 with the fourth phase theta4 to determine information PN3 on the phase of the third power line PL3. At this time, the PN3 phase may be, for example, a T-phase.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the essential characteristics thereof. The contents of each claim in the claims may be combined with other claims without departing from the scope of the claims.

Claims (6)

The master device transmitting the phase information request signal to the first slave device connected to the second power line at a first time point;
A first obtaining step of the first slave device obtaining a first phase value of the power voltage of the first phase power line at the first time point and a second phase value of the power voltage of the second power line;
The first slave device transmitting a relay signal to a second slave device connected to the third power line at a third time point;
A second obtaining step of the second slave device obtaining a third phase value of the power voltage of the second power line at the third time point and a fourth phase value of the power voltage of the third power line;
Wherein a first device different from the first slave device or the first slave device is connected to the first phase line of the second power line by using the first phase value and the second phase value, Generating first information on the first information;
And a second device different from the second slave device or the second slave device is operable to determine a phase difference between the third power line and the second power line relative to the second power line using the third phase value and the fourth phase value Generating second information; And
Wherein the second slave device or the second slave device uses information about the phase of the relative power voltage of the third power line with respect to the first phase power line using the first information and the second information, Determining;
/ RTI &gt;
Wherein the first slave device, the second slave device, and the master device store information about a reference time point at which the phase information request signal is transmitted and a reference time point at which the relay signal is transmitted,
Method of determining power line phase information. The method according to claim 1,
A first reference time point at which the phase information request signal is transmitted is a time point at which a phase? _R of a commercial power voltage provided through the first phase power line has a first predetermined value,
Wherein a second reference time point at which the relay signal is transmitted is a time point at which a phase (? _R ) of a commercial power voltage provided through the first phase power line has a second predetermined value,
Method of determining power line phase information. delete delete 2. The method of claim 1, wherein any two power lines of the first phase power line, the second power line, and the third power line are power lines of the same phase or are power lines of different phases. delete

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