KR101801983B1 - Automatic meter reading system and method for detecting phase - Google Patents

Abstract

A remote meter reading system and method for phase detection are disclosed. An automatic meter reading system for phase detection according to the present invention includes a watt hour meter for transmitting a phase detection packet in synchronization with a phase detection signal corresponding to a phase of power supplied from a transformer; And a phase detector for detecting a supply power phase signal corresponding to a phase of the power supplied by the transformer by each phase and outputting the phase of the power supplied to the watt-hour meter by using the detected supply phase signal and the phase detection packet transmitted from the watt- And a data concentrator for discriminating the data.

Description

[0001] The present invention relates to an automatic meter reading system and method for detecting phase,

In particular, the present invention relates to a system and method for remote meter reading for phase detection, and more particularly to a data concentrating unit (DCU) that transmits a phase detection packet in synchronization with a phase detection signal corresponding to a phase of power supplied from a transformer, To a remote meter reading system and method capable of making power phase detection and power outage monitoring of a power customer inexpensive and simple by discriminating a phase of power supplied to a watt-hour meter using a supply power phase signal and a phase detection packet.

The present remote meter reading system is a universal configuration in which information of a watt-hour meter that records power consumption of a power customer is acquired through a communication network. However, according to the smart grid's power system intelligence needs, various new functions are being added to the remote meter reading system. In particular, it is difficult to collect the electric power connected to the power customers. Even when the power is collected by the manpower, the power supply phase of the customer is adjusted when the power power of the power customer is grasped to minimize the inequality current And facility expansion can be reduced, which has a large ripple effect in terms of economy and electricity quality.

On the other hand, in the remote meter reading system, the power failure information collecting function of the power customer is required in a smart grid environment as an essential function for demanding the latest high quality electricity supply and minimizing the power failure time.

It is an object of the present invention to provide a power meter that transmits a phase detection packet in synchronization with a phase detection signal corresponding to the phase of the power supplied from the transformer, And to provide a remote meter reading system and method that can make the power phase detection and power outage monitoring of a power customer cheap and simple.

An automatic meter reading system for phase detection according to an embodiment of the present invention includes a plurality of watt hour meters for transmitting a phase detection packet in synchronization with a phase detection signal corresponding to a specific point of a power phase supplied from a transformer; And a supply power phase signal corresponding to a phase of the power supplied by the transformer, for each phase, and using the detected supply phase signal and the phase detection packet transmitted from each of the plurality of watt- Wherein the data concentrator receives a phase detection signal corresponding to the phase detection packet at a point of time when a preamble or a header of the phase detection packet is received, And the data concentration device determines the phases of the phase detection start packets and the phases for instructing the start of the phase detection to the watt-hour meter, Transmits a phase detection end packet for instructing the end of detection, Upon receipt of the phase detection start packet, the weighing scale generates a random number until receiving the phase detection end packet, delays it while counting the number of phase detection signals by the value of the generated random number, and transmits the phase detection packet And repeating the process.

Wherein the watt-hour meter includes: a phase detection signal generator for generating a phase detection signal corresponding to a phase of electric power supplied from the transformer to the watt-hour meter; And a phase detection packet transmitter for transmitting the phase detection packet in synchronization with the phase detection signal.

Wherein the data concentration device includes: a transformer monitoring unit that grasps a supply power phase signal corresponding to a phase of power supplied by the transformer, for each phase; And a control unit for receiving the meter reading information including the phase detection packet and determining the phase of the power supplied to the watt hour meter by using the supply power phase signal and the phase detection packet and comparing the meter reading information and the power supplied to the watt hour meter And a remote meter reading unit for transmitting the result of the phase discrimination to the server.

The phase detection signal may be in the form of a pulse signal which is synchronized with a specific point of the phase of the electric power supplied to the watt hour meter and continues for a predetermined time.

The phase detection packet may include a header including at least one of a preamble, start information, a transmission address, a reception address and an end information of the phase detection packet.

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The data concentrator can distinguish a customer corresponding to the watt-hour meter by using watt-hour information corresponding to a transmission address of the phase detection packet and a modem address previously recognized by the concentrator or the server.

The watt-hour meter may include an electrostatic detection unit that generates and transmits an electrostatic detection signal when a phase detection signal that lasts for a predetermined time or longer is sensed.

The watt-hour meter may further include an energy storage unit for supplying the operation power while generating and transmitting the power failure detection signal.

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A method of remote sensing for phase detection according to an embodiment of the present invention includes: transmitting a phase detection packet in synchronization with a phase detection signal corresponding to a phase of power supplied from a plurality of watt-hour meters from a transformer; Determining a phase of a power supply phase signal corresponding to a phase of the power supplied from the transformer by each phase; And a phase of power supplied to the plurality of watt-hour meters using the supply power phase signal in which the data concentration device is determined and the phase detection packet transmitted from the plurality of watt-hour meters, The step of determining the phase of the power compares a phase detection signal corresponding to the phase detection packet with the supply power phase signal at a point of time when the preamble or header of the phase detection packet is received, Wherein the step of determining the phase of the power supplied to each of the plurality of watt-hour meters includes the step of determining the phase of the power supplied to each of the plurality of watt- Transmitting an initiation packet; The plurality of watt-hour meters receiving the phase detection start packet; Repeating the steps of generating a random number by the plurality of watt-hour meters, delaying while counting the number of phase detection signals by a value of the generated random number, and transmitting a phase detection packet; Transmitting a phase detection end packet for instructing the plurality of watt-hour meters to end phase detection; The plurality of watt-hour meters receiving the phase detection end packet; And stopping the transmission of the phase detection packet by delaying the plurality of watt-hour meters by generating a random number, counting the number of phase detection signals by the value of the generated random number, and stopping the transmission of the phase detection packet.

Wherein the phase detection packet includes a header including at least one of a preamble, a start information, a transmission address, a reception address, and a termination information of the phase detection packet, wherein the phase of power supplied to the watt- And may include the preamble or header received at the time when the data concentrator normally receives the preamble or the header.

The method of claim 1, wherein the step of determining the phase of the power supplied to the watt-hour meter includes the step of determining whether the data concentrator corresponds to a transmission address of the phase detection packet and a modem address The watt-hour meter may further include a step of identifying a customer corresponding to the watt-hour meter.

The method further comprises a step of generating and transmitting an electrostatic detection signal when the watt-hour meter detects a phase detection signal that lasts for a predetermined time or longer after the step of discriminating the phase of the power supplied to the watt- .

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According to an aspect of the present invention, a watt-hour meter transmits a phase detection packet in synchronization with a phase detection signal corresponding to a phase of power supplied from a transformer, and the data concentrator supplies the watt- It is possible to provide a remote meter reading system and method which can make the power phase detection and power outage monitoring of the power customer cheap and simple.

1 is a schematic view of a remote meter reading system for phase detection according to an embodiment of the present invention.
2 is a diagram illustrating a phase detection signal and a phase detection packet of an automatic meter reading system for phase detection according to an embodiment of the present invention.
3 is a view for explaining a phase detection process of an automatic meter reading system for phase detection according to an embodiment of the present invention.
4 is a view for explaining a phase detection packet transmission method of an automatic meter reading system for phase detection according to an embodiment of the present invention.
5 is a flowchart for explaining a remote meter reading method for phase detection according to an embodiment of the present invention.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

1 is a schematic view of a remote meter reading system for phase detection according to an embodiment of the present invention.

Referring to FIG. 1, an automatic meter reading system 100 for phase detection according to an embodiment of the present invention may include a watt hour meter 110 and a data concentration device 120. The watt-hour meter 110 may include a phase detection signal generation unit 111, a phase detection packet transmission unit 112, an electric power detection unit 113, and an energy storage unit 114. In addition, the data concentrator 120 may include a transformer monitoring unit 121 and a remote meter reading unit 122. The remote metering system 100 for phase detection shown in FIG. 1 is according to one embodiment, and the blocks shown in FIG. 1 are not necessarily all of the blocks, and in some embodiments, some blocks may be added, .

The watt-hour meter 110 transmits the phase detection packet in synchronization with the phase detection signal corresponding to the phase of the power supplied from the transformer 10 in the remote meter reading system 100 for phase detection according to an embodiment of the present invention. In one embodiment, the watt hour meter 110 includes a phase detection signal generator 111 for generating a phase detection signal corresponding to the phase of the power supplied to the watt-hour meter 110 from the transformer 10, And a phase detection packet transmission unit 112 for transmitting a phase detection packet. In addition, the watt-hour meter 110 includes an electrostatic detection unit 113 for generating and transmitting an electrostatic detection signal when it detects a phase detection signal that lasts for a predetermined time or more, And an energy storage unit 114 for supplying power. The process of detecting the blackout by the blackout detecting unit 113 will be described in more detail below with reference to FIG. The energy storing unit 114 serves to supply an emergency power source so that the watt hour meter 110 can generate and transmit an electrostatic detection signal since no power can be supplied to the watt hour meter 110 during a power failure.

1, an automatic meter reading system 100 for phase detection according to an embodiment of the present invention includes a plurality of watt-hour meters 110, 110 ', 110 ", 110' connected to the same data concentrator 120, ''). At this time, they can be connected to power lines of different phases such as the watt hour meter 110, the watt hour meter 110 'and the watt hour meter 110'', and data such as the watt hour meter 110''and the watt hour meter 110''' And may be connected to power lines of the same phase with respect to the concentrating device 120. [

2 is a diagram illustrating a phase detection signal and a phase detection packet of an automatic meter reading system for phase detection according to an embodiment of the present invention.

First, the signal state changes according to the steady state 201 where power is normally supplied and the power state 202 where power is not normally supplied.

2, the phase 210 of the power supplied from the transformer in the steady state 201 is sinusoidal in shape and corresponds to the phase 210 of the power supplied from the transformer The phase detection signal 220 may be in the form of a pulse signal that continues for a predetermined time in synchronization with a specific point in the phase 210 of the power supplied from the transformer, for example, a peak 211, a lowest point 212, Lt; / RTI > 2 shows a phase detection signal 220 synchronized to the peak 211 of the phase 210 of power supplied from the transformer. The predetermined time may be set by the user, but may be short enough that the pulse signal can display the specific point.

The phase detection packet 230 is transmitted in synchronization with the phase detection signal 220. The phase detection packet 230 may be transmitted immediately in synchronization with the phase detection signal 220 that occurs for a short period of time. The phase detection packet 230 may include a header 236 that includes one or more of a preamble 231, start information 232, a transmission address 233, a receive address 234, and end information 235 . That is, the phase detection packet 230 can be made of only the minimum packet configuration information without a payload. Accordingly, the phase detection packet 230 can be configured as a small-sized packet, so that the delay time and the processing time can be minimized. That is, since the phase detection packet 230 is immediately transmitted in synchronization with the phase detection signal 220 and has a minimized size, packet transmission is easy within the generation time interval of the series of phase detection signals 220.

In the case of the power failure state 202, since there is no power supplied from the transformer, the phase detection signal 220 is maintained until power is supplied again. When the phase detection signal 220 is maintained for a predetermined time or more, the watt hour meter generates and transmits the detection signal. The predetermined time may be set in advance by the user to judge whether or not a power failure occurs, and may be set to one cycle of the normal phase detection signal or more than a predetermined period of the normal phase detection signal. The process of generating and transmitting such an electrostatic detection signal may be performed by the electrostatic detection unit 113 shown in FIG.

Referring back to FIG. 1, in the remote meter reading system 100 for phase detection according to an embodiment of the present invention, the data concentrator 120 monitors the state of the transformer 10 and grasps the phase of the supplied power. The data concentrator 120 receives the meter reading information from the watt hour meter 110 through the short distance communication and transmits the acquired meter reading information to the server 20 via the long distance communication network. (Phase) of the power supplied to the watt-hour meter 110 by using the phase-detected packet transmitted from the watt-hour meter 110 and the supplied power phase signal obtained by grasping the supplied power phase signal corresponding to the phase of the power supplied by the watt- Phase. At this time, the data concentrator 120 includes a transformer monitoring unit 121 for grasping the supply power phase signal corresponding to the phase of the power supplied from the transformer 10 for each phase, and the meter reading information including the phase detecting packet And determines the phase of the power supplied to the watt-hour meter 110 by using the supplied power phase signal and the phase detection packet, and outputs the result of the phase discrimination of the meter reading information and the power supplied to the watt- And a remote meter reading unit (122) for transmitting the measured data to the remote meter reading unit (20).

In order to minimize the phase reading delay due to the packet transmission, the data concentrator 120 performs phase detection corresponding to the phase detection packet including the preamble or header received at the time of normally receiving the preamble or header of the phase detection packet Signal and the supplied power phase signal to determine the phase of the phase angle error to be the phase of the power supplied to the watt-hour meter transmitting the phase detection packet including the preamble or the header.

Also, the data concentrator 120 can distinguish the customers corresponding to the watt-hour meter by using the watt-hour information corresponding to the transmission address of the phase detection packet and the modem address previously recognized by the concentrator or the server. In one embodiment, the data concentrator 120 may classify a customer corresponding to the watt-hour meter as an individual customer or an electrostatic customer according to a phase.

3 is a view for explaining a phase detection process of an automatic meter reading system for phase detection according to an embodiment of the present invention.

1 and 3, the data concentrator 120 includes a phase detection start packet 310 for instructing the watt-hour meter 110 to start phase detection and a phase detection end packet 330 for instructing the phase detection end, The phase detection of the watt-hour meter 110 can be controlled. That is, when the data concentrator 120 transmits the phase detection start packet 310 to the watt hour meter 110, the watt hour meter 110 starts phase detection by transmitting the phase detection packet 320, 120 obtains the phase discrimination result 340 of the power supplied to the watt-hour meter using the phase detection packet 320 and transmits it to the server. When the data concentrator 120 transmits the phase detection end packet 330 to the watt hour meter 110, the watt hour meter 110 ends the phase detection.

4 is a view for explaining a phase detection packet transmission method of an automatic meter reading system for phase detection according to an embodiment of the present invention.

In an automatic meter reading system for phase detection according to an exemplary embodiment of the present invention, instead of a delay method for avoiding collision in a wireless, power line communication (PLC) or other communication network, It is possible to use a phase detection packet transmission method for transmitting a phase detection packet immediately and preventing a phase detection packet transmitted from a plurality of watt-hours connected in the same phase from colliding on a shared medium.

Referring to FIG. 3 and FIG. 4, when the watt-hour meter 110 receives the phase detection start packet 320 in FIG. 4 (S401), a random number for transmission delay is generated (S402). FIG. 4 shows a case where the value of the random number is 5. Then, the phase detection signal is delayed while counting the number of phase detection signals by the value of the random number (S403), and the phase detection packet is transmitted in synchronization with the phase detection signal (S404). Then, the random number generation, delay and phase detection packet transmission described above are repeated until reception of the phase detection end packet (S406) (S405). The phase detection packet transmission method using the random number and the delay can prevent the plurality of watt-hour meters connected to the same phase from simultaneously transmitting the phase detection packets and colliding with each other.

5 is a flowchart for explaining a remote meter reading method for phase detection according to an embodiment of the present invention.

5, when the remote meter reading method for phase detection according to an embodiment of the present invention is started, a watt-hour meter transmits a phase detection packet in synchronization with a phase detection signal corresponding to a phase of power supplied from a transformer (S501).

When the watt-hour meter transmits the phase detection packet (S501), the data concentration device grasps the supply power phase signal corresponding to the phase of the power supplied by the transformer by each phase (S502). Then, in operation S503, the phase of the power supplied to the watt-hour meter is determined using the supplied power phase signal in which the data concentration device is determined and the phase detection packet transmitted in the watt-hour meter. The phase detection packet may include a header including at least one of a preamble, a start information, a transmission address, a reception address and an end information of the phase detection packet.

At this time, step S503 compares the phase detection signal corresponding to the phase detection packet including the preamble or header received at the time when the data convergence apparatus normally received the preamble or the header and the supply power phase signal The phase of the phase angle error can be determined as the phase of the power supplied to the watt-hour meter that transmits the phase detection packet including the preamble or the header.

Also, although not shown in FIG. The remote meter reading method for phase detection according to an embodiment of the present invention is characterized in that after step S503, the data concentrator corresponds to a transmission address of the phase detection packet and a modem address previously recognized in the centralized unit or server The method may further include a step of identifying a customer corresponding to the watt hour meter using watt hour meter information or a step of generating and transmitting an outage detection signal when the watt hour meter detects a phase detection signal for a predetermined time or longer.

In addition, step S503 may include a process according to the phase detection packet transmission method shown in FIG.

The above-described remote meter reading method for phase detection has been described with reference to the flowcharts shown in the drawings. While the above method has been shown and described as a series of blocks for purposes of simplicity, it is to be understood that the invention is not limited to the order of the blocks, and that some blocks may be present in different orders and in different orders from that shown and described herein And various other branches, flow paths, and sequences of blocks that achieve the same or similar results may be implemented. Also, not all illustrated blocks may be required for implementation of the methods described herein.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken as limitations. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (16)

A plurality of watt-hour meters for transmitting a phase detection packet in synchronization with a phase detection signal corresponding to a specific point of a power phase supplied from the transformer; And
And a phase detector for detecting a supply phase signal corresponding to a phase of the power supplied by the transformer for each phase and outputting the supply phase signal and the phase detection packet transmitted from each of the plurality of watt- And a data concentrator for discriminating a phase of power to be supplied,
The data concentrator includes:
A phase detection circuit for comparing a phase detection signal corresponding to the phase detection packet with the supply power phase signal at a point of time when the preamble or header of the phase detection packet is received, Of the phase,
The data concentrator includes:
And transmits a phase detection start packet for instructing the start of phase detection to the watt-hour meter and a phase detection end packet for instructing end of phase detection,
The plurality of watt-
Upon receiving the phase detection start packet, a random number is generated until the reception of the phase detection end packet, a delay is performed while counting the number of phase detection signals by the value of the generated random number, and a phase detection packet is repeatedly transmitted And a second detector for detecting the phase of the second signal. The method according to claim 1,
The watt-
A phase detection signal generating unit for generating a phase detection signal corresponding to a phase of electric power supplied from the transformer to the watt hour meter; And
And a phase detection packet transmitter for transmitting the phase detection packet in synchronization with the phase detection signal. The method according to claim 1,
The data concentrator includes:
A transformer monitoring unit for grasping a supply power phase signal corresponding to a phase of the power supplied by the transformer for each phase; And
Wherein the control unit receives the meter reading information including the phase detection packet and determines a phase of power supplied to the watt hour meter using the supply power phase signal and the phase detection packet, And a remote meter reading unit for transmitting the result of the determination to the server. The method according to claim 1,
The phase-
Wherein the pulse meter is in the form of a pulse signal which is synchronized with a specific point of a phase of power supplied to the watt hour meter and continues for a predetermined time. The method according to claim 1,
The phase detection packet includes:
And a header including at least one of a preamble, start information, a transmission address, a reception address, and termination information of the phase detection packet. delete The method of claim 5,
The data concentrator includes:
Wherein the customer identification unit identifies a customer corresponding to the watt hour meter by using watt-hour information corresponding to a transmission address of the phase detection packet and a modem address previously recognized by the data concentrator or the server. The method according to claim 1,
The watt-
And an electrostatic detection unit for generating and transmitting an electrostatic detection signal when a phase detection signal that is longer than a predetermined time is sensed. The method of claim 8,
The watt-
Further comprising an energy storage unit for supplying an operation power while the electrostatic detection signal is generated and transmitted as an electrostatic detection signal. delete delete Transmitting a phase detection packet in synchronization with a phase detection signal corresponding to a phase of power supplied from a plurality of watt-hour meters from the transformer;
Determining a phase of a power supply phase signal corresponding to a phase of the power supplied from the transformer by each phase; And
Determining a phase of power supplied to the plurality of watt-hour meters using the supply power phase signal in which the data concentration device is determined and the phase detection packet transmitted from the plurality of watt-hour meters,
Wherein the step of determining the phase of the power supplied to the watt-
A phase detection circuit for comparing a phase detection signal corresponding to the phase detection packet with the supply power phase signal at a point of time when the preamble or header of the phase detection packet is received, Of the phase,
Wherein the step of determining a phase of power supplied to the plurality of watt-
Transmitting a phase detection start packet for instructing the data concentration device to start phase detection to the plurality of watt-hour meters;
The plurality of watt-hour meters receiving the phase detection start packet;
Repeating the steps of generating a random number by the plurality of watt-hour meters, delaying while counting the number of phase detection signals by a value of the generated random number, and transmitting a phase detection packet;
Transmitting a phase detection end packet for instructing the plurality of watt-hour meters to end phase detection;
The plurality of watt-hour meters receiving the phase detection end packet; And
And stopping the process of transmitting the phase detection packet while delaying the plurality of watt-hour meters by generating a random number, counting the number of phase detection signals by a value of the generated random number, and stopping the process of transmitting the phase detection packet. Way. The method of claim 12,
The phase detection packet includes:
And a header including at least one of a preamble, start information, a transmission address, a reception address, and termination information of the phase detection packet. The method of claim 12,
After determining the phase of the power supplied to the watt-hour meter,
Further comprising the step of distinguishing a customer corresponding to the watt-hour meter by using the watt-hour meter information corresponding to the transmission address of the phase detection packet and the modem address previously recognized in the data concentrator or the server, A method for remote meter reading for phase detection. The method of claim 12,
After determining the phase of the power supplied to the watt-hour meter,
Further comprising generating and transmitting an electrostatic detection signal when the watt-hour meter detects a phase detection signal that lasts for a predetermined time or longer. delete

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