KR101822005B1 - Metering modem, remote controlling system for setting watt-hour meter and computer readable recording medium for metering modem - Google Patents

Abstract

The present invention relates to a metering modem capable of quickly applying various watt-hour meter settings to a corresponding watt-hour meter; a remote control system to set a watt-hour meter, and a computer-readable recording medium thereof. According to one embodiment of the present invention, the metering modem comprises: a remote communication unit to remotely receive first watt-hour meter setting information from a data concentration unit (DCU) or a server; a storage unit to store at least one piece of second watt-hour meter setting information; a processing unit to compare first ID information included in the first watt-hour meter setting information with at least one piece of second ID information included in the second watt-hour meter setting information, and to generate complete watt-hour meter setting information including at least part of the second watt-hour meter setting information including the second ID information identical to the first ID information and at least part of the first watt-hour meter setting information; and a watt-hour meter connection unit to transfer the complete watt-hour meter setting information to a watt-hour meter corresponding to the complete watt-hour meter setting information.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote control system and a computer readable recording medium for a watt-hour meter and a computer readable recording medium,

The present invention relates to a meter reading modem, a watt-hour meter remote control system, and a computer-readable recording medium.

Recently, intelligent watt-hour meters have been required by the establishment of Advanced Metering Infrastructure (AMI).

The intelligence of such a watt-hour meter requires that various watt-hour meter settings be quickly applied to the corresponding watt-hour meter.

Japanese Patent Application Laid-Open No. 10-1006905

The present invention provides a meter reading modem, a watt-hour setting remote control system and a computer-readable recording medium that can quickly apply various watt-hour meter settings to a corresponding watt-hour meter.

The meter-reading modem according to an embodiment of the present invention may include a data communication unit (DCU) or a remote communication unit for remotely receiving first watt-hour meter setting information from a server; A storage unit for storing at least one second watt hour meter setting information; And compares first identification information included in the first watt-hour meter setting information with at least one second identification information included in the at least one second watt-meter setting information, and includes second identification information identical to the first identification information And a second watt-hour setting information generating unit that generates watt-hour wattmeter setting information including at least a part of the first watt-hour meter setting information and at least a part of the first watt- And a watt hour meter for transmitting the completed watt hour meter setting information to a watt hour meter corresponding to the finished watt hour meter setting information; . ≪ / RTI >

A watt-hour meter setting remote control system according to an embodiment of the present invention includes a data concentration apparatus that remotely receives first watt-hour meter setting information from a server; The first watt-hour meter setting information and the at least one second watt meter setting information are stored in the first watt-hour meter setting information and the at least one second watt- The second watt-hour setting information including at least a part of the second watt-hour setting information including the second identification information identical to the first identification information, and at least a part of the first watt- A meter reading modem for generating completed watt hour meter setting information; A watt hour meter receiving the completed watt hour meter setting information from the meter reading modem and generating metering data according to a meter reading mode set at a time according to the completed watt hour meter setting information; . ≪ / RTI >

For example, the remote communication unit of the meter-reading modem may remotely receive the first watt-hour meter setting information according to the first protocol, and the processing unit of the meter-reading modem may generate the completed watt meter setting information according to the second protocol.

For example, the remote communication unit of the meter-reading modem remotely receives the first watt-hour meter setting information including the first header information, and the storage unit of the meter-reading modem includes at least one second header information and at least one second body information And the processing unit of the meter reading modem generates the completed watt hour meter setting information including at least a part of the first header information and the at least one second body information .

For example, the first or second watt-hour setting information may include the type information of the corresponding watt-hour meter, and the processing unit of the meter-reading modem may calculate the amount of the second header information included in the completed watt- Can be changed.

For example, the remote communication unit of the meter reading modem may remotely receive the at least one second watt-hour meter setting information before remotely receiving the first watt-hour meter setting information.

For example, the storage unit of the meter reading modem may store the first watt-hour meter setting information when the first identification information is different from the at least one second identification information, and the watt- And may transmit the first watt-hour meter setting information to the corresponding watt-hour meter according to the first watt-hour meter delivery time information included in the information.

For example, the completed watt-hour meter setting information may include watt-hour meter transmission time information, and the watt-meter connection unit of the meter-reading modem may transmit the completed watt meter setting information to the corresponding watt-hour meter according to the wattmetric transmission time information.

For example, the storage unit of the meter reading modem may further store the reception time information of the first watt-hour meter setting information having the first identification information identical to the at least one second identification information, and the at least one second watt- Based on the reception time information.

For example, the processing unit of the meter-reading modem generates communication stop position information when a communication interruption occurs while receiving the first watt-hour meter setting information, and the storage unit of the meter- And the remote communication unit of the meter probe remotely transmits the communication interruption position information to the data concentrator or the server and transmits the communication interruption position information from the data concentrator or the server to the first watt- Information from a position corresponding to the communication interruption position information can be remotely received.

For example, the first watt-hour meter setting information includes divided communication position information, and the remote communication unit of the meter-reading modem receives, from the data concentrator or the server, a position corresponding to the divided communication position information from the first watt- And the information from the position corresponding to the divided communication position information can be sequentially remotely received.

For example, the completed watt hour meter setting information may include meter reading mode setting schedule information such that the amount of metering data generated by the corresponding watt hour meter varies with time.

For example, the watt hour meter operates to change the amount of metering data generated according to the metering mode, and the metering modem receives metering data from the watt hour meter and remotely transmits the metering data to the data concentrating device have.

The processor for executing the instructions recorded on the computer-readable recording medium according to an embodiment of the present invention includes: storing at least one second watt meter setup information; Remotely receiving first watt-hour meter setting information from a data concentrator (DCU) or server; Comparing the first identification information included in the first watt-hour meter setting information with at least one second identification information included in the at least one second watt-meter setting information; Generating complete watt hour meter setting information including at least a part of second watt hour meter setting information including second identification information identical to the first identification information and at least a part of the first watt hour meter setting information; Transmitting the completed watt hour meter setting information to a watt hour meter corresponding to the completed watt hour meter setting information; As shown in FIG.

According to an embodiment of the present invention, various watt-hour meter settings can be quickly applied to the corresponding watt-hour meter, communication load due to sending and receiving watt-hour meter setting information can be reduced, and communication stability can be improved.

The watt-hour meter with various watt-hour settings quickly can provide various information quickly with the intelligent power metering system (AMI) and it can lead to efficient use of electric power by the power recipient.

1 is a diagram illustrating communication of a meter reading modem according to an embodiment of the present invention.
FIG. 2 illustrates a watt-hour meter remote control system according to an embodiment of the present invention.
3 is a diagram illustrating a configuration of a meter reading modem according to an embodiment of the present invention.
4 is a diagram illustrating a divided communication of a meter reading modem according to an embodiment of the present invention.
FIG. 5 is a diagram illustrating a sequential reception of a meter reading modem according to an embodiment of the present invention.
FIG. 6 is a flowchart illustrating a process of generating complete power meter setting information of a meter-reading modem according to an embodiment of the present invention.
7 is a flowchart illustrating a communication interruption occurrence of the meter reading modem according to an embodiment of the present invention.
FIG. 8 is a flowchart showing a succession of reception of a meter reading modem after a communication interruption according to an embodiment of the present invention.
9 is a flowchart illustrating the meter reading mode setting schedule information.
10 is a diagram illustrating TOU (Time of Use) information that can be included in watt-hour meter setting information.
11 is a diagram illustrating header information and body information that may be included in watt-hour meter setting information.
Fig. 12 is a diagram illustrating reception time information of watt-hour meter setting information.
13 is a diagram illustrating ITOU information of the header information shown in FIG.
14 is a diagram illustrating control information of the ITOU information shown in FIG.
15 is a diagram illustrating ADate information of the ITOU information shown in FIG.
16 is a diagram illustrating Mlist information of the header information shown in FIG.
17 is a diagram exemplifying the NoMID information of the Mlist information shown in FIG.
FIG. 18 is a diagram illustrating AWP information of the body information shown in FIG.
FIG. 19 is a diagram illustrating ASP information of the body information shown in FIG.
20 is a diagram illustrating the NoSP information of the ASP information shown in FIG.
FIG. 21 is a diagram illustrating AWP information of the body information shown in FIG.
22 is a diagram illustrating NoWP information of AWP information shown in FIG.
23 is a diagram illustrating ADP information of the body information shown in FIG.
24 is a diagram illustrating the NoDP information of the ADP information shown in FIG.
25 is a diagram showing the NoDP information shown in FIG. 24 with the second protocol (e.g., DLMS).
26 is a diagram showing the NoDP information shown in FIG. 24 with the first protocol.
FIG. 27 is a view illustrating ASDT information of the body information shown in FIG.
28 is a diagram illustrating NoSDT information of the ASDT information shown in FIG. 17;
FIG. 29 is a diagram showing the NoSDT information shown in FIG. 28 with the second protocol (for example, DLMS).
30 is a diagram showing the NoSDT information shown in FIG. 28 with the first protocol.
31 is a diagram illustrating AETC information of the body information shown in FIG.
32 is a diagram illustrating ETC information of the AETC information shown in FIG.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings in order that those skilled in the art can easily carry out the present invention.

1 is a diagram illustrating communication of a meter reading modem according to an embodiment of the present invention.

Referring to FIG. 1, a meter reading modem 100 according to an embodiment of the present invention may remotely receive first watt-hour meter setting information from a remote device 10 and transmit completed watt-hour meter setting information to the watt- .

The remote device 10 may include a data concentrator (DCU) and / or a server.

The watt hour meter 20 can be set to various modes in various time zones according to the watt hour meter setting information (e.g., TOU (Time of Use) information) received to generate the metering data. That is, the watt hour meter 20 can adjust the amount, type, arithmetic logic, and the like of the generated metering data in accordance with the time zone. For example, the watt-hour meter 20 can classify 24 hours of one week into a light-load time zone, a heavy-load time zone, and a high-load time zone to control a weighting cycle, a power saving mode, a safe mode,

The set efficiency of the watt hour meter 20 over time may vary frequently. For example, the power consumption patterns of power recipients may vary depending on the season, holidays, weather, disaster, and social events. The load pattern of the power system may vary depending on the real-time operation status of the distributed power source Can vary.

Accordingly, the watt-hour meter 20 can receive watt-hour meter setting information frequently or in real time, or receive watt-meter setting information having a large amount of data, thereby improving setting efficiency over time.

The meter reading modem 100 remotely receives watt-hour setting information or watt-hour meter setting information having many data generated frequently or in real time by the remote device 10 and transmits remotely-received watt-meter setting information to the watt- It can be delivered in real time.

The meter reading modem 100 can operate to cope with an increase in the communication load due to the frequency of remote receiving of watt-hour meter setting information and the amount of data, and to improve communication stability.

FIG. 2 illustrates a watt-hour meter remote control system according to an embodiment of the present invention.

2, the data concentrator 11 corresponding to the server 12 may correspond to a plurality of meter reading modems 100a, 100b and 100n, and one meter reading modem 100a may correspond to a plurality of watt- , 20b, 20n, respectively. Here, the plurality of watt-hour meters 20a, 20b, and 20n may correspond to a plurality of power recipients disposed in a single building or a plurality of buildings adjacent to each other.

That is, the metering data of the plurality of watt-hour meters 20a, 20b, and 20n can be transmitted to one metering modem 100a, and the metering data received from the plurality of metering modems 100a, 100b, 11 or the server 12, as shown in FIG.

A large amount of data can be transmitted / received between the server 12 and the data concentrator 11 through optical communication or broadband communication (e.g., LTE, 5G). On the other hand, since the plurality of meter reading modems 100a, 100b, and 100n can be arranged in various communication environments, it is possible to provide a communication method that is low in cost for establishing a communication such as a power line communication (PLC) or a near field wireless communication (Zigbee, Wisun, And can transmit / receive data to / from the data concentrator 11. [

The data concentrator 11 and the plurality of meter-reading modems 100a, 100b, and 100n may be connected to the data concentrator 11 when the number of the meter-reading modems 100a, 100b, The communication stability between the base station and the base station may be degraded.

Therefore, the meter reading modem according to the embodiment of the present invention appropriately combines the first watt-hour meter setting information received from the data concentrator 11 or the server 12 and the stored second watt meter setting information to generate finished watt-hour meter setting information can do.

Then, the meter reading modem may transmit the completed watt-hour meter setting information and / or the first watt-hour meter setting information to the plurality of watt-hour meters 20a, 20b, and 20n at an appropriate time.

Accordingly, the meter reading modem according to an embodiment of the present invention can stably provide the communication environment of the watt hour meter setting information even when remotely receiving watt hour meter setting information or watt hour meter setting information generated frequently or in real time, The communication environment of the watt-hour meter setting information can be stably provided even if a communication method with a low construction cost is used.

3 is a diagram illustrating a configuration of a meter reading modem according to an embodiment of the present invention.

3, the meter reading modem 100 according to an embodiment of the present invention may include a remote communication unit 110, a storage unit 120, a processing unit 130, and a watt-hour connection unit 140. FIG.

The remote communication unit 110 may remotely receive the first watt-hour setting information from the remote device 10. [ The first watt-hour meter setting information may include first identification information.

The storage unit 120 may store at least one second watt-hour meter setting information. If a plurality of second watt-hour meter setting information is stored in the storage unit 120, each of the plurality of second watt meter setting information may include corresponding second identification information. If the number of the second watt hour meter setting information stored in the storage unit 120 is large, the storage unit 120 may delete the old watt hour meter setting information from the point of use. Here, the point of use may be defined as a point of time at which the second watt-hour meter setting information is remote and a point at which the first watt-hour meter setting information includes the same identification information, whichever is the later.

Here, the second watt hour meter setting information may be remotely received by the remote communication unit 110 before remote reception of the first watt-hour setting information, stored in the storage unit 120 according to the information input by the administrator of the site, .

The processor 130 compares the first identification information included in the first watt-hour meter setting information with at least one second identification information included in the at least one second watt-meter setting information, 2 identification information and at least a part of the first watt-hour meter setting information can be generated.

If there is no identification information identical to the first identification information among the plurality of second identification information, the first watt-hour meter setting information may be stored in the storage unit 130 without being combined with the second watt-hour meter setting information. The first watt-hour setting information may be transmitted to the watt-hour meter 20 according to the first watt-hour information. In addition, the first watt-hour meter setting information may be added to the watt-meter setting information when the watt meter setting information including the same identification information before the time corresponding to the first watt-hour meter delivery time is remotely received.

If one of the plurality of second identification information is the same as the first identification information, the second watt-hour meter setting information corresponding to the second identification information identical to the first identification information may be appropriately combined with the first watt- .

For example, the first or second watt-hour setting information may be divided into header information and body information. The header information may include format information such as identification information, watt-hour transmission time or application time of the watt-hour setting information, and the body information may include various amounts, types, calculation logic, etc. of the metering data generated by the watt- And how it is set for each time zone.

Here, the processing unit 130 may generate the completed watt-hour meter setting information by combining at least a part of the first header information included in the first watt-hour meter setting information and the second body information included in the second watt meter setting information. That is, the meter-reading modem 100 may transmit specific watt-hour meter setting information stored by the meter-reading modem 100 to the watt-hour meter 20 according to an instruction received from the remote apparatus 10 remotely. Accordingly, the amount of data received by the meter reading modem 100 can be further reduced, and the communication stability can be further improved.

In addition, the processing unit 130 may convert the protocol in the process of combining the first watt-hour meter setting information and the second watt meter setting information. For example, when the first and second watt hour setting information are based on the first protocol, the processing unit 130 may generate complete watt meter setting information based on the second protocol. For example, the second protocol may be IEC62056, Device Language Message Specifications (DLMS) used as a standard protocol of a watt-hour meter.

The watt-hour meter connection unit 140 can transmit the completed watt-hour meter setting information to the watt-hour meter 20 corresponding to the completed watt-hour meter setting information. For example, the watt-hour connection unit 140 connects the meter-reading modem 100 and the watt-hour meter 20 to a connection terminal for wired (eg, power line communication, RS485) or a short-range wireless communication (eg, Zigbee, Wisun, Bluetooth, NFC, and the like).

The watt-hour connection unit 140 can immediately transmit the completed watt-hour meter setting information to the watt-hour meter 20, and can adjust the delivery time of the completed watt-hour meter setting information according to watt-hour meter delivery time information included in the completed watt-hour meter setting information.

4 is a diagram illustrating a divided communication of a meter reading modem according to an embodiment of the present invention.

Referring to FIG. 4, the watt-hour meter setting information remotely received by the meter-reading modem according to an embodiment of the present invention may include at least one position information.

For example, when the remote communication unit included in the meter-reading modem remotely receives the first reception information up to the first location information, the remote communication unit additionally remotely receives the watt-hour setting information including the second location information, Lt; / RTI > Then, the remote communication unit may remotely receive the residual reception information.

Accordingly, the communication stability of the meter reading modem according to the embodiment of the present invention can be further improved.

FIG. 5 is a diagram illustrating a sequential reception of a meter reading modem according to an embodiment of the present invention.

Referring to FIG. 5, the meter reading modem according to an embodiment of the present invention can sequentially remotely receive information from the first information to the nth information (e.g., 400th information) of the watt-hour meter setting information, The location information of the communication disconnection disconnection can be generated.

For example, when communication is interrupted when the remote communication unit included in the meter-reading modem receives the information 100, the processor included in the meter-reading modem can generate the location information corresponding to the information 100. At this time, the storage unit included in the meter reading modem may preferentially store information from information No. 1 to information No. 100.

Then, the remote device can remotely transmit the information from the information No. 100 to the information No. 400 to the meter-reading modem according to the location information.

Accordingly, the meter reading modem according to the embodiment of the present invention can stably cope with the interruption of the communication failure connection, so that the communication stability can be further improved.

FIG. 6 is a flowchart illustrating a process of generating complete power meter setting information of a meter-reading modem according to an embodiment of the present invention.

6, the meter-reading modem according to an embodiment of the present invention may include at least one of storing at least one second watt-hour setting information (S110), remotely receiving first watt-hour meter setting information from a data concentrator or a server (S120), comparing the first identification information included in the first watt-hour meter setting information with at least one second identification information included in the at least one second watt-meter setting information (S130, S140) (S150) generating complete watt hour meter setting information including at least a part of the first watt hour meter setting information including at least a part of the second watt hour meter setting information including the second identification information identical to the identification information To the watt-hour meter corresponding to the completed watt-hour meter setting information (S160).

The method further includes storing (S170) first watt-hour meter setting information when the first identification information is different from second identification information, watt-hour meter setting information having the same identification information as the first identification information, (Step S180).

If the watt-hour meter setting information having the same identification information as the first identification information is not received within a predetermined time, the meter-reading modem may transmit the first watt-hour meter setting information to the watt-hour meter.

On the other hand, the method may be executed by a processing unit or a processor included in the remote device, and the processing unit or processor may be provided with instructions reflecting the method from a computer-readable recording medium.

7 is a flowchart illustrating a communication interruption occurrence of the meter reading modem according to an embodiment of the present invention.

Referring to FIG. 7, the remote device may attempt to establish a communication connection with the meter reading modem (S210), and the meter reading modem may transmit a connection confirmation signal to the remote device (S220).

Thereafter, the remote device may transmit a wake-up setting notification (TOU) setting start notification signal to the meter reading modem (S230), and the meter reading modem may transmit an information receiving confirmation signal to the remote device (S240).

Thereafter, the remote device may transmit the first information of the watt-hour meter TOU (S250) to the meter-reading modem, and the meter-reading modem may transmit an information reception confirmation signal to the remote device (S260).

Thereafter, the remote device may transmit the second information of the watt-hour meter TOU (S270) to the meter-reading modem, and the meter-reading modem may transmit an information reception confirmation signal to the remote device (S280).

Thereafter, the remote device can transmit the third information of the watt-hour meter TOU (S290) to the meter-reading modem, and when the information reception confirmation signal is not received due to the occurrence of the communication failure, Retransmission.

The communication between the remote device and the meter reading modem may be interrupted if an information receipt acknowledgment signal is not received after the remote device retransmits the third information N times.

FIG. 8 is a flowchart showing a succession of reception of a meter reading modem after a communication interruption according to an embodiment of the present invention.

Referring to FIG. 8, the meter reading modem according to an embodiment of the present invention checks whether communication interruption has occurred (S310), transmits communication interruption position information to a remote device (S320) (S330), and completing remote reception of watt-hour meter setting information (S340).

9 is a flowchart illustrating the meter reading mode setting schedule information.

Referring to FIG. 9, 24 hours of one week may be set as a basic time zone T0, a first time zone T1, a second time zone T2, and a third time zone T3. The watt hour setting information may include information of the first, second and third time zones T1, T2 and T3.

For example, the watt-hour meter can reduce the amount or type of metering data in the first, second, and third time zones (T1, T2, T3), or estimate the high electricity rate, from the base time zone T0.

Hereinafter, specific information of TOU (Time of Use) information that can be included in the watt-hour meter setting information will be described with reference to FIGS. 10 to 32. FIG.

Referring to FIG. 11, the TOU (Time of Use) information included in the watt-hour meter setting information can be divided into header information and body information.

Header information may include operational information or parameters required by AMI communication facilities (eg, meter reading modem, data concentrator, server) to set TOU information in the watt-hour meter. Body information may include OBIS / COSEM information that is set by DLMS communication to a watt-hour meter in a meter-reading modem.

The name information of the header information and the B-Name information of the body information are program IDs of the TOUs used in the watt-hour meter and can be used as IDs for identifying the TOU information to be transmitted.

Upon receiving TOU information of the same TOU Name, existing information may be deleted and updated with new information. That is, only one TOU Name can be operated.

Depending on the setting of the ITOU information, only the header information may be transmitted, or the header information and the body information may be transmitted together. When only header information is transmitted, the TOU information of the existing TOU Name is updated and the corresponding contents can be performed.

The B-CRC information may correspond to the first and second identification information described above. For example, the B-CRC information may be represented by a CRC-32 calculation method used in the IEEE 802.3 standard.

The body information may include seasonal information SP, main information WP, day information DP, occasional holiday information SDT and other information ETC. The meter reading modem according to an embodiment of the present invention may not transmit partial information of each season / week / day / non-regular holiday information to the watt-hour meter according to the permission information of the corresponding watt-hour meter. That is, the season / week / day / non-regular holiday information may be flexible according to the permission information of the corresponding watt hour meter. Thus, the watt hour meter can stably receive the TOU information.

For example, the TOU information may include the type information of the corresponding watt-hour meter. Here, the processing unit included in the meter reading modem may change the amount of the header information included in the TOU information according to the type information.

Referring to FIG. 12, the data concentrator (DCU) and / or the meter reading modem may store and operate a plurality of TOU information. In principle, the TOU information may be erased only when an explicit delete command is received. The TOU information that has not been used for the longest time (for example, TOU information with unused time sequence of 1) can be deleted and operated.

Referring to FIG. 13, the TDate information may be information on the time at which the TOU is applied in the watt-hour meter.

Referring to FIG. 14, the TOU mode may be information for determining whether the body information is applied to the watt-hour meter in real time or not. The TOU configuration may be information that determines whether the TOU information includes only header information or both header information and body information. The SDT configuration may be a combination of the information previously stored in the meter modem and the remotely received information, or the information that determines whether only remotely received information is used alone.

Referring to FIG. 15, the ADate information may correspond to the watt hour transfer time information described above. If the date of the ADate information is smaller than the current date, the meter reading modem may transmit the TOU information to the date of the ADate information of the next month.

Referring to FIG. 16, the Mlist information may be information indicating a watt-hour meter corresponding to the corresponding TOU information among a plurality of watt-hour meters corresponding to the meter-reading modem.

Referring to FIG. 17, the NoMID information may be information indicating the number of fields of the MID information. The MID information means the 11-digit instrument number of the watt-hour meter, and can be expressed by a binary integer that is divided into the first 4 digits and the last 7 digits of the instrument nameplate.

24 to 26, the NoDP information may indicate the number of DP information. If the NoDP information represented by the DLMS is 18, the NDP-act information indicating the array size of the array of DP-action information can be compressed into three.

Referring to FIG. 28 to FIG. 30, when the NoSDT information is represented by DLMS, it can be represented by 12 and can be compressed into 4.

The server 12 in the present description may be a personal computer, a server computer, a handheld or laptop device, a mobile device (mobile phone, PDA, media player, etc.), a multiprocessor system, , A distributed computing environment including any of the above-described systems or devices, and the like.

Also, the remote communication unit 110 may be implemented with at least one of a modem, a network interface card (NIC), an integrated network interface, a radio frequency transmitter / receiver, an infrared port, and a USB connection.

In addition, the storage unit 120 may be implemented with at least one of volatile memory (e.g., RAM), non-volatile memory (e.g., ROM, flash memory, etc.), magnetic storage, Do not.

The processor 130 may be implemented as a processor such as a central processing unit (CPU), a graphics processing unit (GPU), a microprocessor, an application specific integrated circuit (ASIC), or a field programmable gate array , But is not limited thereto.

In the meantime, the term " part " used in this embodiment means a hardware component such as a software or a field-programmable gate array (FPGA) or an ASIC. However, 'part' is not meant to be limited to software or hardware. &Quot; to " may be configured to reside on an addressable storage medium and may be configured to play one or more processors. Thus, by way of example, 'parts' may refer to components such as software components, object-oriented software components, class components and task components, and processes, functions, , Subroutines, segments of program code, drivers, firmware, microcode, circuitry, data, databases, data structures, tables, arrays, and variables. The functions provided in the components and components may be further combined with a smaller number of components and components or further components and components. In addition, components and components may be implemented to reproduce one or more CPUs in a device or system.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Anyone can make various variations.

10: Remote device
11: Data Concentrator
12: Server
20: Watt hour meter
100: meter reading modem
110:
120:
130:
140: Watt hour meter connection
T0, T1, T2, T3: Mode

Claims (14)

A remote communication unit for remotely receiving first watt hour meter setting information from a data concentrating unit (DCU) or a server;
A storage unit for storing at least one second watt hour meter setting information;
And compares first identification information included in the first watt-hour meter setting information with at least one second identification information included in the at least one second watt-meter setting information, and includes second identification information identical to the first identification information And a second watt-hour setting information generating unit that generates watt-hour wattmeter setting information including at least a part of the first watt-hour meter setting information and at least a part of the first watt- And
A watt hour meter for transmitting the completed watt hour meter setting information to a watt hour meter corresponding to the finished watt hour meter setting information; .
The method according to claim 1,
Wherein the remote communication unit remotely receives the first watt-hour meter setting information according to the first protocol,
And the processing unit generates the completed watt hour meter setting information according to the second protocol.
The method according to claim 1,
Wherein the remote communication unit remotely receives the first watt-hour meter setting information including the first header information,
Wherein the storage unit stores the at least one second watt hour meter setting information including at least one second header information and at least one second body information,
Wherein the processing unit generates the completed watt hour meter setting information including at least a part of the first header information and the at least one second body information.
The method of claim 3,
Wherein the first or second watt-hour meter setting information includes type information of a corresponding watt-
Wherein the processing unit changes the amount of second header information included in the completed watt-hour meter setting information according to the type information.
The method according to claim 1,
Wherein the remote communication unit remotely receives the at least one second watt-hour meter setting information before remotely receiving the first watt-hour meter setting information.
The method according to claim 1,
Wherein the storage unit stores the first watt-hour meter setting information when the first identification information is different from the at least one second identification information,
Wherein the watt-hour connection unit transmits the first watt-hour meter setting information to the corresponding watt-hour meter in accordance with the first watt-hour meter delivery time information included in the first watt-hour meter setting information.
The method according to claim 1,
Wherein the completed watt hour meter setting information includes watt hour transfer time information,
Wherein the watt-hour connection unit transmits the completed watt-hour meter setting information to a corresponding watt-hour meter according to the watt-hour transmission time information.
The method according to claim 1,
Wherein the storage further stores reception time information of the first watt-hour meter setting information having the same first identification information as the at least one second identification information, and the at least one second watt- Meter-reading modem to delete.
The method according to claim 1,
Wherein the processing unit generates communication stop position information when a communication interruption occurs while receiving the first watt-hour meter setting information,
Wherein the storage unit stores information from the first watt-hour meter setting information to a position corresponding to the communication interruption position information,
Wherein the remote communication unit remotely transmits the communication interruption position information to the data concentrator or the server and receives information from a position corresponding to the communication interruption position information in the first watt- A meter reading modem.
The method according to claim 1,
Wherein the first watt-hour meter setting information includes divided communication position information,
Wherein the remote communication unit receives information from the data concentrator or the server to a position corresponding to the divided communication position information from the first watt-hour setting information and information from a position corresponding to the divided communication position information, modem.
The method according to claim 1,
Wherein the completed watt hour meter setting information includes meter reading mode setting schedule information such that the amount of metering data generated by the corresponding watt hour meter varies with time.
A data concentrator for remotely receiving first watt-hour meter setting information from a server;
The first watt-hour meter setting information and the at least one second watt meter setting information are stored in the first watt-hour meter setting information and the at least one second watt- The second watt-hour setting information including at least a part of the second watt-hour setting information including the second identification information identical to the first identification information, and at least a part of the first watt- A meter reading modem for generating completed watt hour meter setting information; And
A watt hour meter for receiving the completed watt hour meter setting information from the meter reading modem and generating metering data in accordance with a meter reading mode set at a time according to the finished watt hour meter setting information; And a watt-hour meter remote control system.
13. The method of claim 12,
Wherein the watt-hour meter is operated so that an amount of metering data generated according to the metering mode is changed,
Wherein the meter reading modem receives metering data from the watt hour meter and remotely transmits the metering data to the data concentration device.
Storing at least one second watt hour meter setting information;
Remotely receiving first watt-hour meter setting information from a data concentrator (DCU) or server;
Comparing the first identification information included in the first watt-hour meter setting information with at least one second identification information included in the at least one second watt-meter setting information;
Generating complete watt hour meter setting information including at least a part of second watt hour meter setting information including second identification information identical to the first identification information and at least a part of the first watt hour meter setting information; And
Transmitting the completed watt hour meter setting information to a watt hour meter corresponding to the completed watt hour meter setting information; Comprising the steps of: < RTI ID = 0.0 > a < / RTI >

Images