KR102419852B1 - Current transformer tuning apparatus and method for multi-channel meter - Google Patents

Abstract

Transformer tuning for multi-channel meters that can be used as precise current transformers in multi-channel meters as well as small-channel meters by improving the precision through correction of low-precision low-cost current transformers (CTs) to have the same performance as expensive current transformers. An apparatus and method, wherein, when power is applied from a microcomputer in a tuning module, a power switch is turned off, a command is received through communication with a host central processing unit, and when the received command is not a tuning command, a connected current transformer information and current transformer tuning data are transmitted to the host central processing unit, communication with the host central processing unit is canceled, and the internal power switch is turned on to transmit the current transformer measurement value to the rear-stage power meter and enter the low-power sleep mode. If the received command is a tuning command, it enters the tuning mode, receives the current transformer tuning data transmitted from the host central processing unit, and stores it in the internal memory. It can be used as a current transformer of

Description

Current transformer tuning apparatus and method for multi-channel meter

The present invention relates to an apparatus and method for tuning a current transformer for a multi-channel meter, and in particular, by improving precision through correction of a low-precision low-cost current transformer (CT), to have the same performance as a high-priced current transformer, as well as a small channel meter It relates to a current transformer tuning apparatus and method for a multi-channel meter that can be used as a precise current transformer in a multi-channel meter.

A power meter is used to measure the large current and high voltage flowing in the electric power system of the motor, and a transformer is used as a device to convert large current/high voltage into current and voltage of appropriate measured values.

Transformers are roughly divided into a current transformer (CT) that converts a large current into a small current and a potential transformer (PT) that converts a high voltage into a low voltage.

Here, CT, which is a current transformer, must select usable parts according to the capacity of the current to be measured and the thickness of the power line. In motor diagnosis equipment, a split CT is mainly used.

As is well known, the CT is a sensor used when measuring the value of the current flowing in the primary in proportion to the rated current flowing in the primary, and accuracy is very important.

According to this precision, it is divided into billing (0.2 ~ 1.0 grade) and electronic motor protection relay or other current sensor (1.0 ~ 3.0 grade), and the price differs a lot depending on the grade.

CTs with better quality control so that they are more precise and have small deviations between CTs are sold at a high price, and CTs with poor precision are sold at low prices.

In general, most CTs on the market have large deviations between CTs or do not perform as well as the indicated precision.

In this case, in the meter (wattmeter), the accuracy can be improved through 1:1 correction between the CT and the measurement terminal, and this method is most popularly used.

However, for energy management such as Building Energy Management System (BEMS) and Factory Building Energy Management System (FEMS), measurements must be made from many feeders in the distribution panel, and meters with multiple channels are used. It is difficult to install a tuning device by matching the measurement channel with the CT 1:1, so it is common to use a high-grade precision CT of 1% or less.

In this case, the cost burden is several times higher than that of using 1% ~ 3% CT due to the use of CT of 1% or less, and this cost burden becomes more severe as the number of channels increases.

Therefore, there is a need for a method that can reduce the cost burden by using a low-cost CT and exhibit the same performance as an expensive CT with high precision.

Meanwhile. <Patent Document 1> proposes a conventional technique for correcting an error of an electric power device.

<Patent Document 1> is a method of correcting an error between an external current transformer and a power device in a power device such as a measuring instrument having an external current transformer.

Although it is possible to correct the error between the current transformer and the power device in the prior art, it is impossible to improve the precision of the low-cost current transformer to have the same performance as the expensive current transformer.

Republic of Korea Patent Publication No. 10-1681288 (Registered on November 23, 2016) (Error correction method for power equipment)

Therefore, the present invention has been proposed to solve the disadvantages of the general low-cost CT as described above and the cost burden of using an expensive CT, and to solve various problems occurring in the prior art. The purpose is to provide a current transformer tuning device and method for a multi-channel meter that can be used as a precision current transformer in a multi-channel meter as well as a small-channel meter by improving the precision through the correction of the high-priced current transformer. .

In order to achieve the above object, "a current transformer tuning device for a multi-channel meter" according to the present invention,

It is interposed between the current transformer installed in the power system and the host central processing unit, and stores the current transformer tuning data for improving the accuracy of the current transformer in the internal memory, and the current transformer stored in the internal memory through communication with the host central processing unit when measuring power a tuning module that transmits tuning data;

and a host central processing unit for improving accuracy through current transformer correction by calculating the current transformer tuning data transmitted from the tuning module and the current measured value measured by the current transformer.

In the above, the tuning module receives the tuning data of the installed current transformer and stores it in the internal memory, and when communication with the host central processing unit is made in the state that the connection between the initial current transformer and the power meter is cut off, the current transformer tuning data stored in the internal memory is stored. a microcomputer that transmits to the host central processing unit;

and a power switch for transmitting or blocking the measured value of the current transformer to the power meter by performing a switching operation under the control of the microcomputer.

In the above, it is characterized in that the tuning module is installed in a one-to-one correspondence with the current transformer installed in the power system.

In the above, the microcomputer enters a tuning mode when a tuning command is transmitted from the host central processing unit, receives the current transformer tuning data transmitted from the host central processing unit, and stores the received current transformer tuning data in the internal memory.

In addition, "a current transformer tuning method for a multi-channel meter" according to the present invention,

(a) turning off the power switch when power is applied from the microcomputer in the tuning module, and receiving a command through communication with the host central processing unit;

(b) if the command received from the microcomputer is not a tuning command, transmitting information of the connected current transformer and current transformer tuning data to the host central processing unit and canceling communication with the host central processing unit;

(c) when communication with the host central processing unit is released, turning on the power switch to transmit the measured value of the current transformer to a power meter at the rear stage and entering a low power sleep mode.

In addition, "a current transformer tuning method for a multi-channel meter" according to the present invention,

(d) entering the tuning mode if the command received in step (a) from the microcomputer is a tuning command, receiving the current transformer tuning data transmitted from the host central processing unit, and storing it in an internal memory characterized.

According to the present invention, by improving precision through correction of low-precision current transformers (CT), it has the same performance as expensive current transformers, so that it can be used as a precision current transformer in multi-channel meters as well as small-channel meters. have.

In particular, by upgrading a low-cost current transformer to a high-precision, high-precision current transformer in a multi-channel meter, it can be used as a substitute for an expensive current transformer, thereby reducing the installation cost of a current transformer in a power management device requiring precision.

1A and 1B are circuit diagrams of a current transformer tuning device for a multi-channel meter according to the present invention;
2 is an exemplary view of applying the current transformer tuning device for a multi-channel meter according to the present invention to a power measuring device;
3 is a flowchart showing a current transformer tuning method for a multi-channel meter according to the present invention.

Hereinafter, a current transformer tuning device for a multi-channel meter according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The terms or words used in the present invention described below should not be construed as being limited to conventional or dictionary meanings, and the inventor may appropriately define the concept of terms in order to best describe his invention. It should be interpreted as meaning and concept consistent with the technical idea of the present invention based on the principle that it can be.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents and It should be understood that there may be variations.

1A and 1B are circuit diagrams of a current transformer tuning device for a multi-channel meter according to a preferred embodiment of the present invention. A current transformer (CT) 10, a tuning module 20, and a host central processing unit (Host CPU) 30 ), a switch 40 and a current measurement value input unit 50 may be included.

1A is a circuit configuration diagram of a current type (mA) current transformer, and FIG. 1B is a circuit configuration diagram of a voltage type (mV) current transformer, and the overall configuration and operation of both are the same.

The current transformer 10 is installed in the power system to convert a large current into a small current, and is individually installed at each power input terminal of the power system.

The tuning module 20 is interposed between the current transformer 10 installed in the power system and the host central processing unit (Host CPU) 30, and stores the current transformer tuning data for improving the accuracy of the current transformer 10 in the internal memory and , serves to transmit the current transformer tuning data stored in the internal memory through communication with the host central processing unit 30 during power measurement.

The tuning module 20 receives the tuning data of the installed current transformer 10 and stores it in an internal memory, and when communication with the host central processing unit 30 is made in a state in which the connection between the initial current transformer and the power meter is cut off, the internal The microcomputer 20a that transmits the current transformer tuning data stored in the memory to the host central processing unit 30, a switching operation is performed according to the control of the microcomputer 20a, and the measured value of the current transformer 10 is measured by the power meter It may include a power switch (SW1) to transmit or cut off.

The tuning module 20 is preferably installed in a one-to-one correspondence with the current transformer installed in the power system.

In addition, the microcomputer 20a enters a tuning mode when a tuning command is transmitted from the host central processing unit 30 , receives the current transformer tuning data transmitted from the host central processing unit 30 , and stores it in the internal memory. can

The switch 40 controls on/off operation according to the host central processing unit 30 , and connects a data communication line between the tuning module 20 and the host central processing unit 30 when on, and the tuning module when off The connection of the data communication line between the 20 and the host central processing unit 30 is cut off.

The host central processing unit 30 calculates the current transformer tuning data transmitted from the tuning module 20 and the current measurement value measured by the current transformer 10 to improve precision through current transformer correction.

The current measurement value input unit 50 serves to receive the current measurement value measured by the current transformer 10 .

Here, the host central processing unit 30 and the current measurement value input unit 50 may be implemented together in the power meter 60 .

The operation of the current transformer tuning apparatus for a multi-channel meter according to a preferred embodiment of the present invention configured as described above will be described in detail as follows.

First, a low-precision current transformer 10 with low precision is installed in the power system. Here, the current transformer 10 is individually installed at each power input terminal of the power system.

In a state in which the current transformer 10 is installed, the tuning module 20 interposed between the current transformer 10 installed in the power system and the host central processing unit (Host CPU) 30 is used to improve the precision of the installed current transformer 10. It receives current transformer tuning data from the outside and stores it in the internal memory. Here, the outside may be a server of a building energy management system or a server of a factory energy management system.

Here, the tuning module 20 is installed in a one-to-one correspondence with current transformers installed in the power system. As shown in FIG. 2 , when the current transformers 10 - 12 are respectively installed in the three-phase power source, the tuning modules 20 - 22 are installed to correspond to the current transformers 10 - 12. Here, since the configuration and operation of each tuning module are the same, only one tuning module (eg, 20 ) will be described below.

After that, when power is applied, the tuning module 20 initially turns off the internal power switch SW1 (a contact and b contact is not connected), and the current transformer 20 and the power meter 60 are connected to each other. block

At this time, the switch 40 for connecting or blocking the communication line between the tuning module 20 and the host central processing unit 30 is turned on under the control of the host central processing unit 30 (contact a and b contact connected state), data communication is performed between the host central processing unit 30 and the microcomputer 20a in the tuning module 20 . Data communication uses 1-bit communication data. Here, if only one serial communication port is added to the host central processing unit 30 , communication with the tuning module 20 can be easily implemented. This serial communication port can be used as a communication line and a power line for supplying power to the tuning module 20 at the same time. The host central processing unit 30 may control the operation of the tuning module 20 by controlling the power of the tuning module 20 .

The microcomputer 20a analyzes the command data transmitted from the host central processing unit 30, and if the tuning command is not transmitted, the current transformer tuning data and the current transformer information stored in the internal memory are transferred to the host central processing unit ( 30) is sent. Here, the current transformer information may be type information of the current transformer or standard information.

When the host central processing unit 30 receives the current transformer information and the current transformer tuning data from the microcomputer 20a in the tuning module 20, the host central processing unit 30 turns off the switch 40 (contact a and b is not connected) .

At this time, the microcomputer 20a also turns on the power switch SW1 (the state a and b contacts are connected) so that the measured current measured by the current transformer 10 is transmitted to the current measuring device 60 at the rear stage. do.

The current measurement value input unit 50 of the power meter 60 receives the current measurement value measured by the current transformer 10 and transmits it to the host central processing unit 30 . The host central processing unit 30 calculates (adds) the current measured value of the current transformer 10 input through the current measured value input unit 50 and the current transformer tuning data transmitted from the tuning module 20, correct the measured value of

For example, the installed current transformer is a current transformer with 1 - 10% precision, and if the tuning module supplies 0.5% class tuning data to the power meter, the power meter will eventually measure the current through the current transformer with 0.5% precision. can be utilized

Meanwhile, the microcomputer 20a enters the tuning mode when a tuning command is transmitted from the host central processing unit 30 while being connected to the host central processing unit 30 by communication through a communication line. Then, the current transformer tuning data transmitted from the host central processing unit 30 is received and stored in the internal memory. The current transformer tuning data stored in this way is used as a correction value for the installed current transformer.

3 is a flowchart showing "a current transformer tuning method for a multi-channel meter" according to the present invention. (a) When power is applied from the microcomputer 20a in the tuning module 20, the power switch SW1 is turned off. and receiving a command through communication with the host central processing unit 30 (S101 - S104), (b) if the command received from the microcomputer 20a is not a tuning command, information on the connected current transformer 10 and transmitting the current transformer tuning data to the host central processing unit 30 and releasing communication with the host central processing unit 30 (S105 - S108), (c) communication with the host central processing unit 30 is completed. When released, the power switch SW1 is turned on to transmit the measured value of the current transformer to the power meter 60 at the rear stage, and the step (S109 - S110) of entering the low power sleep mode.

In addition, "a current transformer tuning method for a multi-channel meter" according to the present invention,

(d) the microcomputer 20a enters the tuning mode if the command received in step (a) is a tuning command, receives the current transformer tuning data transmitted from the host central processing unit 30, and stores it in the internal memory It may further include a step (S111 - S112) of doing.

A current transformer tuning method for a multi-channel meter according to a preferred embodiment of the present invention configured as described above will be described in detail as follows.

First, a low-precision current transformer 10 with low precision is installed in the power system. Here, the current transformer 10 is individually installed at each power input terminal of the power system.

In the state in which the current transformer 10 is installed, the tuning module 20 interposed between the current transformer 10 installed in the power system and the host central processing unit (Host CPU) 30 is used to improve the precision of the installed current transformer 10. It receives current transformer tuning data from the outside and stores it in the internal memory. Here, the outside may be a server of a building energy management system or a server of a factory energy management system.

Here, the tuning module 20 is installed in a one-to-one correspondence with current transformers installed in the power system.

Thereafter, the host central processing unit 30 turns on the switch 40 (a contact and b contact is connected) in order to receive the current transformer tuning data, and supplies power to the tuning module 20 through the connected communication line. supply Next, data communication is performed between the tuning module 20 and the host central processing unit 30 . Here, data communication uses 1-bit communication data. To this end, if only one serial communication port is added to the host central processing unit 30 , communication with the tuning module 20 can be easily implemented. The host central processing unit 30 may control the operation of the tuning module 20 by controlling the power of the tuning module 20 .

When power is applied as in step S101, the tuning module 20 turns off the internal power switch SW1 as in step S102 (a contact and b contact are not connected), the current transformer 20 and the power meter 60 ) to block the connection between them.

At this time, when the tuning module 20 is connected to the host central processing unit 30 by communication, in step S103, the tuning module transmits the ID to the host central processing unit 30, and the host central processing unit 30 In step S104, the tuning module 20 transmits whether or not tuning data.

The microcomputer 20a analyzes the command data transmitted from the host central processing unit 30 in step S105, and if the tuning command is not transmitted, the current transformer tuning data and the current transformer stored in the internal memory in steps S106 and S107. The information is transmitted to the host central processing unit 30 . Here, the current transformer information may be type information of the current transformer or standard information.

Thereafter, in step S108, the communication port connected to the host central processing unit 30 is released. That is, communication is canceled by making the communication port into a high-impedance state or tri-state.

Next, the microcomputer 20a also turns on the power switch SW1 as in step S109 (a state in which contact a and b contact are connected), and the current measured value measured by the current transformer 10 is ) to be transmitted. Next, in step S110, it enters the low-power sleep mode.

When the host central processing unit 30 receives the current transformer information and the current transformer tuning data from the microcomputer 20a in the tuning module 20, the host central processing unit 30 turns off the switch 40 (contact a and b is not connected) .

The current measurement value input unit 50 of the power meter 60 receives the current measurement value measured by the current transformer 10 and transmits it to the host central processing unit 30 . The host central processing unit 30 calculates (adds) the current measured value of the current transformer 10 input through the current measured value input unit 50 and the current transformer tuning data transmitted from the tuning module 20, correct the measured value of

For example, the installed current transformer is a current transformer with 1 - 10% precision, and if the tuning module supplies 0.5% class tuning data to the power meter, the power meter will eventually measure the current through the current transformer with 0.5% precision. can be utilized

On the other hand, when the microcomputer 20a is communicatively connected to the host central processing unit 30 through a communication line, and a tuning command is transmitted from the host central processing unit 30, the microcomputer 20a moves to step S111 to enter the tuning mode. do. Next, in step S112, the current transformer tuning data transmitted from the host central processing unit 30 is received and stored in the internal memory. The current transformer tuning data stored in this way is used as a correction value for the installed current transformer.

As described above, the present invention installs a low-precision current transformer as a power system current meter of a building energy management system or a factory energy management system, and upgrades the precision of the low-cost current transformer using tuning data to convert it into a high-precision, expensive current transformer. alternatives can be used.

By using this method, it is possible to reduce the cost of the multi-channel meter using 12 channels (12ch) more than ten times compared to using the existing expensive current transformer. It will be obvious that it is possible.

In particular, in the existing multi-channel meter, since it is necessary to implement a 1:1 current transformer compensator for each measurement terminal in the power meter, the implementation of the power meter is complicated and the implementation cost is high. However, as in the present invention, the tuning module is independently installed If implemented and installed between the current transformer and the power meter, the accuracy of the current transformer can be simply improved, and the configuration of the power meter can be simplified or implementation cost can be reduced.

Although the invention made by the present inventor has been described in detail according to the above embodiment, the present invention is not limited to the above embodiment and it is common knowledge in the art that various changes can be made without departing from the gist of the present invention. It is self-evident to those who have

10: current transformer
20: tuning module
20a: microcomputer
SW1: Power switch
30: host central processing unit
40: switch
50: current measurement value input
60: power meter

Claims (6)

As a current transformer tuning device for improving precision through the tuning of the current transformer,
current transformers installed in the power system;
It is interposed between the current transformer and the host central processing unit, and stores the current transformer tuning data for improving the accuracy of the current transformer in the internal memory, and transmits the current transformer tuning data stored in the internal memory through communication with the host central processing unit. module;
a host central processing unit for improving precision through current transformer correction by calculating the current transformer tuning data transmitted from the tuning module and the current measurement value measured by the current transformer; and
An on/off operation is controlled according to the control of the host central processing unit, and when on, a data communication line between the tuning module and the host central processing unit is connected, and when off, a data communication line between the tuning module and the host central processing unit. including a switch that blocks the connection of
In order to receive the current transformer tuning data, the host central processing unit turns on the switch, supplies power to the tuning module through a connected communication line to drive the tuning module, and uses a microcomputer in the tuning module to turn on the current transformer information and By receiving the current transformer tuning data and correcting the current measurement value using the tuning data for the current transformer tuning, the current measurement value is corrected, or by transmitting the tuning data to the micom through the switch to correct the current measurement value directly from the micom Current transformer tuning device for multi-channel meter featuring.
The current transformer as set forth in claim 1, wherein the tuning module receives the tuning data of the installed current transformer and stores it in an internal memory, and stores the current transformer in the internal memory when communication with the host central processing unit is made in a state where the connection between the initial current transformer and the power meter is cut off a microcomputer for transmitting tuning data to the host central processing unit;
and a power switch for transmitting or blocking the measured value of the current transformer to the power meter by performing a switching operation under the control of the microcomputer.
The current transformer tuning apparatus for a multi-channel meter as set forth in claim 1, wherein the tuning module is installed in a one-to-one correspondence with a current transformer installed in a power system.
The multi-channel according to claim 2, wherein the microcomputer enters a tuning mode when a tuning command is transmitted from the host central processing unit, receives the current transformer tuning data transmitted from the host central processing unit, and stores it in an internal memory. Current transformer tuning device for meter.
A method for improving precision by tuning a current transformer using the current transformer tuning device for a multi-channel meter according to any one of claims 1 to 4, comprising:
(a) when power is applied from a microcomputer in the tuning module, turning off a power switch provided in the tuning module and connected to the current transformer, and receiving a command through communication with a host central processing unit;
(b) if the command received from the microcomputer is not a tuning command, transmitting information and current transformer tuning data of the connected current transformer to the host central processing unit and canceling communication with the host central processing unit;
(c) when communication with the host central processing unit is released, turning on the power switch to transmit the measured value of the current transformer to a power meter at the rear stage and entering a low-power sleep mode; and
(d) entering the tuning mode if the command received in step (a) from the microcomputer is a tuning command, receiving the current transformer tuning data transmitted from the host central processing unit and storing it in an internal memory,
The host central processing unit turns on a switch connecting the communication between the host central processing unit and the microcomputer in order to receive the current transformer tuning data, and supplies power to the tuning module through the connected communication line to drive the tuning module, Receiver information and current transformer tuning data through the micom and correct the current measured value using the tuning data for current transformer tuning to correct the current transformer, or transmit the tuning data to the micom through the switch and directly from the micom Current transformer tuning method for multi-channel meter, characterized in that to correct the current measurement value.







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