KR101268739B1 - Apparatus and method for utilizing output power of metering out fit as power source of trs modem - Google Patents

Abstract

The present invention provides an apparatus and a method for using the output power of an instrumental transformer as a power source of a frequency common communication modem within a usage burden allocated for a power source of a communication modem in a remote automatic meter reading system. The apparatus for using the output power of the instrumental transformer connected between the output of the instrumental transformer according to the present invention and the frequency common communication modem as the power source of the frequency common communication modem is characterized in that the electric power consumption of the customer measured by the electronic watt- A battery connected to the frequency common communication modem for transmitting the meter reading data to the meter reading server, and a battery for supplying power to the meter by using the output power of the meter transformer within the usage load allocated for the power supply of the communication modem, And a low-speed charging section for controlling the charging.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and a method for using output power of a meter transformer as a power source of a frequency-

The present invention relates to an apparatus and a method for using the output power of a meter transformer as a power source of a frequency common communication modem. More particularly, the present invention relates to an apparatus and method for using a power meter And an apparatus and method for using the output power of the transformer as a power source of a frequency common communication modem.

Generally, as science and technology develops, the phenomenon of automating or carrying out human activities is becoming common. In this case, the remote meter reading includes Automatic Meter Reading (AMR) technology for automatically measuring the amount of electricity used in each home or office without sending the meter. In Korea, an electronic watt-hour meter is installed for high-pressure customers who have a contract power of 100kW or more, which applies a seasonal and time-based differential payment system, and an automatic remote meter reading system that enables monitoring of electricity usage and monitoring and setting of watt- Currently, about 160,000 high-voltage customers in the country are covered by remote automatic meter reading, which accounts for about 70% of the nation's electricity sales volume.

As shown in FIG. 1, a conventional automatic remote meter reading system includes an electronic watt hour meter 200 installed in a customer and measuring and storing electricity consumption, a meter reading center of a provider supplying electric power to a customer, The meter reading server 100 for managing the customer by automatically charging the meter according to the meter reading amount and the electronic watt hour meter 200 installed in the customer and measuring the electricity usage amount of the customer measured by the wireless communication method And a communication modem 300 for transmitting the information to the meter reading server 100.

More specifically, the facility installed on the side of the high-pressure side for automatic remote meter reading includes an electronic watt-hour meter 200, a communication modem 300, a test terminal block 400, and a metering outfit (MOF) (500). Since the voltage and current of the high-voltage line are very high, the electronic watt-hour meter 200 can not directly detect the amount of electricity consumed by the customer. Therefore, a transformer for converting the voltage supplied through the high-voltage line to a low voltage and a high- The high voltage / high current of the high-voltage line is lowered to the low voltage / small current through the instrument transformer 500 composed of the combination of the instrumental current transformer for converting the current to the low current, and then the electronic watt- . The supply of power to the electronic power grid 200, the communication modem 300, and the test terminal 400 is made up of the output voltage of the transformer for AC 110 V, The output power of the power transformer for use in power supply is 12.5VA in total, 2VA as a power source for operating the electronic watt-hour meter 200, 5VA as a power source for operating the communication modem 300, Respectively. The reason for restricting the use load on the output power of the instrumental transformer is that the load connected to the instrumental transformer is a facility related to the measurement of the electricity consumption of the electronic watt hour meter 200 and the transmission of the meter reading data, Is not metered by the electronic watt hour meter (200). An electronic watt hour meter (200), a communication modem (300), and a test terminal block (400) are installed and sealed in a separate enclosure in order to prevent electric shock and accurately measure the amount of electricity used.

However, in the conventional automatic remote meter reading system, since the communication modem 300 connected to the electronic watt-hour meter 200 transmits the meter reading data about the electricity consumption amount of the customer measured by the electronic watt hour meter 200 to the meter reading server 100, As a carrier of CDMA wireless communication network of a telecommunications carrier leases it, there is a problem that a company that supplies electric power to a customer has to pay a huge wireless communication cost annually in order to operate the automatic meter reading system.

In order to reduce the wireless communication cost in the automatic remote meter reading system, an electronic watt-hour meter (200) is installed so that a provider for supplying electric power to the customer can utilize a TRS (Trunked Radio System) It is possible to consider replacing the conventional CDMA modem with the TRS modem as the communication modem 300 for transmitting the meter reading data from the meter reading server 100 to the meter reading server 100. However, The output power of the instrumental transformer should be used as the power source and the usage burden for the output power of the instrumental transformer allocated for the power source of the communication modem 300 should be within 5VA while the TRS modem is used to transmit the meter reading data The power consumption of about 20 to 30 W is consumed. Therefore, the use of the output power of the instrumental transformer allocated for the power supply of the communication modem 300 There is a problem that it exceeds the burden.

If the consumed power of the TRS modem exceeds the usage burden on the output power of the instrumental transformer allocated for the power supply of the communication modem, the output voltage of the instrumental transformer is used to measure the electricity consumption of the electronic watt- As a result, a huge amount of electric power loss may occur and damage to the high-price instrument transformer of the high-pressure customer may be caused, resulting in complaints caused by the fault of the equipment and interruption of power supply. Can not use it.

A problem to be solved by the present invention is to make it possible to use the output power of the instrumental transformer within the use load (5VA) for the output power of the instrumental transformer assigned for the power supply of the communication modem, The purpose of this study is to reduce the communication cost in the automatic remote meter reading by utilizing the TRS network.

According to an aspect of the present invention, there is provided an apparatus for using an output power of a meter transformer connected between an output of a meter transformer and a frequency common communication modem as a power source of a frequency common communication modem, A battery connected to the frequency common communication modem for transmitting the meter reading data to the meter reading server for electricity usage amount of the user; And a low-speed charging unit for controlling the output power of the instrumentation transformer to charge the battery with the output power of the instrumentation transformer within the usage burden allocated for the power supply of the communication modem.

Here, the low-rate charging unit controls a charging current supplied to the battery to a predetermined current to charge the battery with the output power of the instrumental transformer within the usage burden allocated for the power supply of the communication modem. A battery ID detector for determining the type of the battery; And a battery voltage / current detector for detecting the voltage or current state of the battery.

The overcurrent protection unit may further include an overcurrent protection unit for detecting an abnormal operation current that may cause damage to the instrumental transformer or an inspection of the electronic watt hour meter and blocking the abnormal operation current.

At this time, the overcurrent prevention unit may include a charge amount abnormality detection / separation unit that separates the low-speed charging unit and the battery when an abnormal state of the charged amount of the battery is detected. And an overcurrent shutoff unit for shutting off supply of the charging current to the battery when the charging current supplied to the battery corresponds to an overcurrent exceeding a usage burden on the output power of the instrumental transformer.

In this case, when the frequency common communication modem transmits the meter reading data to the meter reading server, the power saving unit may further include a power switch for disconnecting the low-speed charging unit from the battery.

In this case, the power supply switching unit may include: a TRS modem transmission detecting unit for generating a shutoff signal when the frequency common communication modem transmits the meter reading data to the meter reading server; And a battery power fast transfer unit for receiving the blocking signal from the TRS modem transmission detector and separating the electrical connection between the low-speed charger and the battery.

The power-saving unit may include a battery information interface unit for providing status information on the type of the battery to the battery ID detecting unit or providing voltage or current status information of the battery to the battery voltage / current detecting unit.

The apparatus may further include a reverse current blocking unit for preventing a reverse current from flowing to the instrumental transformer.

The apparatus may further include an AC / DC converter for converting an output voltage of the instrumental transformer from an AC voltage to a DC voltage.

The apparatus may further include a constant current / voltage converter for stabilizing the DC voltage converted by the AC / DC converter to a constant voltage.

According to another aspect of the present invention, there is provided a method of using an output power of a metering transformer according to the present invention as a power source of a frequency-shared communication modem, Controlling charging of the battery with the output power of the instrumental transformer; And supplying the power charged in the battery to the power source of the frequency common communication modem for transmitting the meter reading data on the electric consumption amount of the customer measured by the electronic watt hour meter to the meter reading server.

The step of controlling the charging of the battery may include controlling the charging current supplied to the battery to a predetermined current to charge the battery with the output power of the instrumental transformer within the usage burden allocated for the power supply of the communication modem step; Determining a type of the battery; And detecting a voltage or a current state of the battery.

At this time, it may further include a step of detecting an abnormal operation current which may cause damage to the instrumental transformer or an inspection error of the electronic watt hour meter and blocking the abnormal operation current.

If the charging current supplied to the battery corresponds to an overcurrent exceeding a use load on the output power of the instrumental transformer, the step of sensing and interrupting the abnormal operation current may include supplying the charging current to the battery . ≪ / RTI >

In this case, when the frequency common communication modem transmits the meter reading data to the meter reading server, the electrical connection between the charger and the battery for charging the battery with the output power of the instrumental transformer within the usage burden allocated for the power supply of the communication modem And a step of separating.

The step of separating the charging unit and the battery may include generating a blocking signal for separating the charging unit and the battery when the frequency common communication modem transmits the meter reading data to the meter reading server.

At this time, it may further include preventing a reverse current from flowing to the instrumental transformer.

The method may further include converting an output voltage of the instrumental transformer from an AC voltage to a DC voltage.

At this time, stabilizing the converted DC voltage to a constant voltage may be further included.

The present invention has the effect of securing a technology base that can be applied in the field of automatic remote sensing for high-pressure customers, as well as a TRS network established by a company that supplies electric power to a customer for power automation.

According to the present invention, in order to transmit the meter reading data on the power consumption measured by the electronic watt-hour meter of the high-pressure consumer to the meter reading server, the CDMA wireless communication network of the communication carrier in use can be converted into the self TRS network, Can be reduced.

1 is a view schematically showing a conventional automatic remote meter-reading system.
Fig. 2 is a view schematically showing a facility installed on the side of a high-pressure consumer for automatic remote meter-reading.
3 schematically shows a power supply unit of a frequency-sharing communication modem according to the present invention for supplying output power of a meter transformer to a power supply of a TRS modem.
FIG. 4 is a view schematically showing an AC / DC converter constituting a power supply device of a frequency-sharing communication modem according to the present invention shown in FIG.
5 is a schematic view showing a constant current / voltage converting section constituting a power supply device of a frequency common communication modem according to the present invention shown in Fig.
Fig. 6 is a view schematically showing a low-speed charger, an overcurrent prevention unit, and a power-saving unit constituting a power supply device of a frequency-sharing communication modem according to the present invention shown in Fig.

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.

3 schematically shows a power supply unit of a frequency-sharing communication modem according to the present invention for supplying output power of a meter transformer to a power supply of a TRS modem.

3, the power supply 600 of the frequency-shared communication modem according to the present invention for supplying the output power of the instrumentation transformer 500 to the power supply of the TRS modem 700 includes a reverse current prevention unit 610 , An AC / DC converting unit 620, a constant current / voltage converting unit 630, a low speed charging unit 640, an overcurrent preventing unit 650, a power switching unit 660 and a battery 670 have.

The reverse current blocking unit 610 may affect the instrument transformer 500 as the TRS modem 700 uses the output power of the instrument transformer 500 as a power source so as to damage the instrument transformer 500 or the electronic watt- It is possible to prevent a reverse current from flowing to the instrumental transformer 500 due to an abnormal operation of the power supply device 600 of the frequency common communication modem in order to completely eliminate the occurrence of the meter reading of the instrument 200.

FIG. 4 is a view schematically showing an AC / DC converter constituting a power supply device of a frequency-sharing communication modem according to the present invention shown in FIG.

4, the AC / DC converter 620 may include a voltage converter 621, an AC-DC converter 623, and a smoothing circuit 625. The AC / DC converter 620 receives the 110V AC voltage, which is the output voltage of the instrument transformer of the instrument transformer 500, and charges the battery 670 to supply power to the TRS modem 700. The AC / To a DC voltage for driving the power supply device 600 of the frequency-shared communication modem according to the present invention, and then outputs the DC voltage to the constant current / voltage converter 630.

5 is a schematic view showing a constant current / voltage converting section constituting a power supply device of a frequency common communication modem according to the present invention shown in Fig.

As shown in Fig. 5, the constant current / voltage converting unit 630 may be constituted by a constant voltage unit 631 and a constant current unit 633. The constant current / voltage converter 630 stabilizes the output power of the DC voltage converted by the AC / DC converter 620 to a constant voltage suitable for charging the battery 670. To this end, the output power source is controlled to fluctuate in accordance with the variation of the input power source, and is maintained at a constant voltage by the constant voltage unit 631, while being maintained at a constant current by the constant current unit 633.

Fig. 6 is a view schematically showing a low-speed charger, an overcurrent prevention unit, and a power-saving unit constituting a power supply device of a frequency-sharing communication modem according to the present invention shown in Fig.

6, the low-rate charging unit 640 may include a low-speed charge control unit 641, a battery ID detection unit 643, and a battery voltage / current detection unit 645. [ The low-speed charge control unit 641 controls the charge current with a current specified to enable low-speed charging of the battery 670 within the usage burden on the output power of the instrumental transformer allocated for the power supply of the communication modem. The battery ID detection unit 643 and the battery voltage and current detection unit 645 receive various status information of the battery 670 from the battery information interface unit 665 of the power supply switching unit 660 to be described later, Or detects the voltage or current state of the battery 670. [

The overcurrent prevention unit 650 detects the abnormal operation current which may cause damage to the instrument transformer 500 or the electronic watt hour meter 200 due to mutual operation with the power supply switching unit 660, To this end, the overcurrent prevention unit 650 may include a charge amount abnormality detection unit 651 and an overcurrent shutoff unit 653. [ When the abnormal state of the charged amount of the battery 670 is detected due to a malfunction of the low rate charging unit 640 or the like, the charge amount abnormality detecting and separating unit 651 detects the charging state of the power source apparatus 600 of the frequency common communication modem according to the present invention Thereby completely disconnecting the electrical connection between the low-rate charging unit 640 and the battery 670. The overcurrent shutoff unit 653 senses whether or not the charge current supplied to the battery 670 for charging corresponds to an overcurrent exceeding the use load on the output power of the instrumental transformer. Block it.

The power supply switching unit 660 may include a TRS modem transmission detecting unit 661, a battery power fast switching unit 663, and a battery information interface unit 665. When the TRS modem 700 transmits the meter reading data to the meter reading server 100, the power supply switching unit 660 switches the consumption power (20 to 30 W) of the TRS modem 700 to the power supply voltage In order to prevent the transformer for the instrument from being damaged or the electronic watt-hour meter 200 from being mistaken for being overloaded due to an overload in the instrument transformer when the use load on the output power of the frequency common communication modem is exceeded, The electrical connection between the live part of the battery 600 and the TRS modem 700 is completely separated so that the TRS modem 700 uses only the electric power charged in the battery 670 as a power source.

The TRS modem transmission detector 661 senses a transmission signal to provide a shutoff signal to the battery power fast switching unit 663 and outputs the shutoff signal to the battery power fast switching unit 663 Receives the blocking signal from the TRS modem transmission detector 661 and separates the electrical connection between the charging unit of the power supply unit 600 of the frequency common communication modem according to the present invention and the battery 670 at high speed, Only the charging current supplied by the battery 670 is used without using the current supplied from the charging unit. When transmission of the meter reading data of the TRS modem 700 is completed, the charging unit and the battery 670 are reconnected so that the battery 670 can be recharged. The battery information interface unit 665 provides various current status information of the battery 670 to the battery ID detector 643 and the battery voltage / current detector 645 of the low-rate charger 640.

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: meter reading server
200: Electronic watt hour meter
300: communication modem
400: Test terminal block
500: Instrument transformer
600: Power supply
610: Reverse current prevention part
620: AC / DC conversion section
621: voltage converting unit 623: AC-DC converting unit
625: Smoothing circuit part
630: Constant current / voltage conversion unit
631: constant voltage section 633: constant current section
640: Low-
641: Low-speed charge controller 643: Battery ID detector
645: battery voltage / current detection unit
650: Overcurrent prevention part
651: charge amount abnormality detection / separation unit 653: overcurrent shutoff unit
660: Power transfer unit
661: TRS modem transmission detection unit 663: Battery power fast switching unit
665: Battery information interface section
670: Battery
700: TRS modem

Claims (19)

An apparatus for using the output power of a meter transformer as a power source of a frequency common communication modem,
A battery connected to the frequency common communication modem for transmitting the meter reading data to the meter server for electricity consumption measured by the electronic watt hour meter to supply power;
A low-speed charging unit for controlling the output power of the instrumental transformer to charge the battery with output power of the instrumental transformer within the usage burden allocated for the power supply of the communication modem; And
Wherein the frequency common communication modem transmits meter reading data to the meter reading server and when the consumed electric power of the frequency common communication modem exceeds the usage load,
Wherein the use load is a limit value that does not cause an output power drop of the instrumental transformer, wherein the output power of the instrumental transformer is used as a power source of the frequency common communication modem. The method according to claim 1,
The low-
A low-rate charge control unit for controlling a charge current supplied to the battery to a current specified to charge the battery with an output power of the instrumental transformer within a usage burden allocated for the power supply of the communication modem;
A battery ID detector for determining the type of the battery; And
A battery voltage / current detection unit for detecting a voltage or a current state of the battery,
Wherein the output power of the instrumental transformer is used as a power source of the frequency common communication modem. The method according to claim 1,
Further comprising an overcurrent prevention unit for detecting and interrupting an abnormal operation current that may cause damage to the instrumental transformer or an error of the electronic watt hour meter. The apparatus as claimed in claim 1, . The method of claim 3,
The overcurrent prevention unit includes:
A charge abnormality detecting / separating unit for separating the low-rate charging unit and the battery when an abnormal state of the charged state of the battery is detected; And
And an overcurrent shutoff unit for shutting off the supply of the charging current to the battery when the charging current supplied to the battery corresponds to an overcurrent exceeding the usage burden,
Wherein the output power of the instrumental transformer is used as a power source of the frequency common communication modem. delete The method according to claim 1,
The power-
A TRS modem transmission detector for generating a blocking signal when the frequency common communication modem transmits the meter reading data to the meter reading server; And
And a battery power-supply high-speed switching unit for receiving the cut-off signal from the TRS modem transmission detecting unit to separate an electrical connection between the low-
Wherein the output power of the instrumental transformer is used as a power source of the frequency common communication modem. The method according to claim 1,
The low-
A low-rate charge control unit for controlling a charge current supplied to the battery to a current specified to charge the battery with an output power of the instrumental transformer within a usage burden allocated for the power supply of the communication modem;
A battery ID detector for determining the type of the battery; And
A battery voltage / current detection unit for detecting a voltage or a current state of the battery,
Lt; / RTI >
Wherein the power supply switching unit includes a battery information interface unit for providing status information on the type of the battery to the battery ID detecting unit or providing voltage or current status information of the battery to the battery voltage and current detecting unit, An apparatus for using output power of a meter transformer as a power source of a frequency common communication modem. The method according to claim 1,
Further comprising a reverse current blocking unit for preventing a reverse current from flowing into the instrumental transformer. The apparatus of claim 1, wherein the output power of the instrumental transformer is used as a power source of a frequency common communication modem. The method according to claim 1,
Further comprising an AC / DC converter for converting an output voltage of the instrumental transformer from an AC voltage to a DC voltage, wherein the output power of the instrumental transformer is used as a power source of the frequency-sharing communication modem. The method of claim 9,
Further comprising a constant current / voltage converting unit for stabilizing the DC voltage converted by the AC / DC converting unit to a constant voltage by using the output power of the meter transformer as a power source of the frequency common communication modem. Controlling the output power of the instrumental transformer to charge the battery with the output power of the instrumental transformer within the usage burden allocated for the power supply of the communication modem;
Supplying electric power charged in the battery to a power source of a frequency common communication modem for transmitting meter reading data on electricity consumption of a customer measured by an electronic watt hour meter to a meter reading server; And
Separating an electrical connection of the low-speed charger and the battery when the frequency common communication modem transmits the meter reading data to the meter server and the consumed power of the frequency common communication modem exceeds the usage burden
Wherein the use load is a threshold value that does not cause an output power drop of the instrumental transformer, wherein the output power of the instrumental transformer is used as a power source of the frequency common communication modem. The method of claim 11,
The step of controlling to charge the battery includes:
Controlling a charging current supplied to the battery to a current specified to charge the battery with the output power of the instrumental transformer within a usage burden allocated for the power supply of the communication modem;
Determining a type of the battery; And
Detecting a voltage or current state of the battery
Wherein the output power of the instrumental transformer is used as a power source of the frequency common communication modem. The method of claim 11,
Further comprising the step of detecting and interrupting an abnormal operating current which may cause damage to the instrumental transformer or the meter reading of the electronic watt hour meter after the step of controlling to charge the battery, A method for using output power as a power source for a frequency common modem. 14. The method of claim 13,
Wherein the step of sensing and interrupting the abnormal operation current comprises:
And stopping the supply of the charging current to the battery when the charging current supplied to the battery corresponds to an overcurrent exceeding the usage burden. A method for using as a power supply of a modem. delete The method of claim 11,
The step of separating the charging unit and the battery includes:
And generating a cutoff signal for separating the charging unit and the battery when the frequency common communication modem transmits the meter reading data to the meter reading server. Method for use as power source. The method of claim 11,
Further comprising the step of preventing a reverse current from flowing into the instrumental transformer before the step of controlling to charge the battery. The method for using the output power of the instrumental transformer as a power source of a frequency common communication modem . The method of claim 11,
Further comprising the step of converting the output voltage of the instrumental transformer from an AC voltage to a DC voltage before the step of controlling to charge the battery. Method for using. 19. The method of claim 18,
Further comprising the step of stabilizing the converted DC voltage to a constant voltage. ≪ Desc / Clms Page number 20 >

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