KR100860858B1 - Apparatus for self-diagnosing break line in secondary-side coil for current transformer for electronic watt hour meter using auxiliary relay - Google Patents

Abstract

An apparatus for self-diagnosing a disconnection in a secondary coil for a current transformer for a wattmeter is provided to prevent a wire disconnection due to the disconnection of the secondary coil by notifying a remote operator of the disconnection state of the current transformer. A relay driver(5) is added to an output terminal of a controller and activates a relay in response to an output signal from a controller. A relay(6) couples a movable terminal of a contact switch with an open fixing terminal, when a driving signal is outputted from the relay driver, and couples one end of a secondary coil with an input terminal of a coil state detector. A secondary coil state detector(4) is connected between the open fixed terminal and the input terminal of the controller and detects a current flow on the secondary coil, when the movable terminal is connected to the open fixed terminal. The controller(3) detects the current flowing in the secondary coil and drives the relay, when no current is introduced to the secondary coil for a predetermined time interval by using the relay driver. The controller receives an output signal from the secondary coil state detector and determines a disconnection state of the secondary coil. An alarm unit notifies the disconnection state of the secondary coil to a power management operator.

Description

Apparatus for self-diagnosing break line in secondary-side coil for current transformer for electronic watt hour meter using auxiliary relay}

The present invention relates to a secondary coil disconnection self-diagnosis apparatus of a current transformer for an electronic wattmeter using an auxiliary relay, and more particularly, a secondary side of a current transformer applied to the inside of the electronic wattmeter (abbreviated as "CT"). A contact switch of a relay is installed between the one end of the coil and the A / D converter and the secondary coil state detection unit so that when the current is not detected for a predetermined time in the current transformer during operation of the electronic wattmeter or when a predetermined time is reached within the control unit, the controller Operate the relay to automatically diagnose the abnormality of the secondary coil of the current transformer (i.e., to determine the disconnection due to aging or failure), save the result, and display the alarm to the nearby workers of the electronic electricity meter. And if necessary, work in the remote power monitoring room through the communication interface. It was also invented so that the power supply manager could be prevented in advance and the power supply manager could take action on the current transformer in a short time. .

In general, the electricity meter is an instrument that measures and records the total amount of power used for a certain period of time, and is also called an integrated power meter, an electricity meter, or an electricity meter. It is a device that applies the rotational force proportional to the electric power to the rotating disc and integrates the use time of the electric power with the rotational speed of the disc.

At this time, mercury and commutator type wattmeters are used for direct current, and inductive type wattmeters are used for alternating current. Especially in the case of inductive integrated power meter, the structure is simple and cheap, so it is used a lot. The electric meter installed in each home is this inductive type.

Induction type integrated power meter has fixed coil (current coil) and movable coil (voltage coil) up and down with rotating disc made of aluminum in between, and metering device and permanent magnet are arranged. When current flows in the fixed coil and the movable coil, an electromagnetic force is generated between the two coils, and the disk rotates by this force. At this time, when the permanent magnet sandwiched between the disks applies the braking force to the disks, the disks rotate at a speed proportional to the power.

The total number of revolutions of the disc is displayed numerically on the meter connected to the axis of rotation. It is usually recorded in kWh (kW). The integrated power meter is managed by the utility company and is sealed so that it cannot be exchanged by individuals.

Current transformer refers to a device that obtains a small current proportional to a large current of an alternating current. The main part of the structure is a primary coil with a small number of turns in a stratified core such as a transformer, and a large number of turns. The secondary coil is wound, and the secondary coil connects an ammeter, a power meter, a relay, and the like.

The primary and secondary current ratios are similar to the half ratios of coil turns, respectively. There are various ratings of the primary current, ranging from tens of amps to thousands of amps, but most of the secondary currents are 5A.

When the current transformer is connected to the circuit, the secondary coil is grounded and the primary coil provides sufficient insulation according to the voltage, so there is no danger of touching the secondary circuit even if the primary circuit is at a high voltage. In the current transformer, the main part is put in a tank, and the oil-filled inflow type and the oil-free dry type are used, and the dry type is used for the circuit voltage of about 20,000V or less.

Dry molds are widely used, insulated coils and cores wrapped with synthetic resin. Current transformers are different from transformers, so it is safe to short the secondary, but it is dangerous to open them. This is because the primary current acts to magnetize all the iron cores when the secondary is opened, and the iron cores saturate and generate heat. It is also undesirable to put many instruments in series in the secondary. How much of the instrument can be connected should be followed according to the voltage ampere value for each current transformer.

On the other hand, the current transformer applied to the electronic electricity meter can not only provide the power supply to the customer, but also need to periodically determine whether there is a disconnection due to aging or failure, and replace or maintain it according to the condition. Can be measured accurately.

However, the conventional electronic wattmeter current transformer is not equipped with such an abnormality discrimination device or a self-diagnostic device, so it is necessary to measure using a separate measuring device in a non-operational state of the electronic wattmeter, and thus perform cumbersome tasks such as product disassembly. I had to.

In other words, when checking the current coil burnout automatic detection method of the conventional mechanical wattmeter, the current coil of the mechanical wattmeter is burned out due to the user's fault, such as overload and poor indoor wiring, in the power transaction process between the power supplier and the user. Although a lot has occurred, most of the mechanical wattmeter is installed in the instrument box, and the internal current coil is concealed by the mechanical wattmeter structure, so it cannot be confirmed from the outside.

Therefore, conventionally, a separate current coil burnout detection device is adopted to determine whether there is a burnout. After disassembling the product by hand, it is determined whether there is an abnormality in the secondary coil of the current transformer, and then there is no problem in accordance with the result. When reassembling at the time, and if it is determined that there is a problem, it is not only troublesome to replace it with a new current transformer, but also it is not immediately recognized when an error occurs in the current transformer built in a specific meter. If the replacement of the current transformer is delayed, there is always a concern that it will cause great damage not only to customers but also to the electricity supplier itself.

The present invention has been made to solve such a conventional problem, a relay having a contact switch between one end of the secondary coil of the current transformer and the A / D converter and the secondary coil state detection unit applied to the interior of the electronic watt-hour meter If additional current is not detected in the current transformer for a predetermined time or the time is set within the operation of the electronic watt-hour meter, or when the time is set within itself, the relay is operated through the control unit. In addition to the automatic diagnosis and storage of the results, it is also possible to inform the nearby workers of the electronic electricity meter through an indicator or alarm device, and if necessary, notify the workers of the remote power monitoring room through the communication interface. Have the supply manager take action on the current transformer. Secondary coil disconnection self-diagnosis device of current transformer for electronic wattmeter using auxiliary relay that can prevent power accidents that may occur due to aging or disconnection due to aging or disconnection The purpose is to provide.

The present invention device for achieving the above object is configured to receive an electric current flowing through the secondary coil of the current transformer installed on the power line in real time through the A / D converter to configure an electronic power meter that calculates and accumulates the power consumption of the consumer in the control unit A relay driver configured to be installed at an output terminal of the controller to operate a relay in response to an output signal of the controller; The movable terminal of the contact switch is connected to one end of the secondary coil of the current transformer, and the normally closed fixed terminal and the normally open fixed terminal are respectively connected to the input terminal of the A / D converter and the input terminal of the secondary coil state detector. When the drive signal is output from the relay driver under the control of the controller, the current switch is connected to the input terminal of the A / D converter via a normally closed fixed terminal to a normally open terminal. A relay connecting one end of the secondary coil to an input terminal of the secondary coil state detector; Detects whether current flows normally in the secondary coil of the current transformer when the contact switch operating terminal of the relay is connected between the normally open fixed terminal of the relay contact switch and the input terminal of the controller. A secondary coil state detector for generating data corresponding to the controller; Normally, the current flowing through the secondary coil of the current transformer through the A / D converter is continuously detected, and a predetermined time inputted within itself while calculating and accumulating the power used by the customer, or the secondary coil of the current transformer from the A / D converter. If it is determined that the current flowing in does not flow for more than a predetermined time, the relay is driven through the relay driver and at that time, the output signal of the secondary coil state detector is input to determine whether the secondary coil of the current transformer is disconnected. A control unit which determines whether to drive the notification means according to the result; As a result of the determination by the controller, it is determined that the secondary coil of the current transformer is disconnected, and a predetermined driving signal is generated.

At this time, the secondary coil state detection unit is characterized in that configured with a photo coupler.

In addition, the notification means includes an indicator for indicating that the secondary coil of the current transformer is disconnected so that the power supply manager can know through time, and an alarm for generating an alarm sound so that you can know through hearing. It features.

In addition, if necessary, a self-diagnosis data storage unit is additionally installed in the input / output terminal of the control unit so that the control unit has a predetermined time inputted therein or a current flowing from the A / D converter to the secondary coil of the current transformer for a predetermined time or more. Because it is judged that it does not flow, the relay is driven and the result data is stored whenever it is determined whether the secondary coil of the current transformer is disconnected by using the data input from the secondary coil state detection unit. Characterized in that it can be used as data.

In addition, the output terminal of the control unit is provided with a communication interface that can perform data communication with a personal computer installed in the power monitoring room of the remote location to determine the disconnection of the secondary coil of the current transformer in the control unit As a result, the data can be transmitted to the personal computer of the remote power monitoring room.

As described above, according to the device of the present invention, a relay having a contact switch between one end of the secondary coil of the current transformer and the A / D converter and the secondary coil state detection unit applied inside the electronic power meter is additionally installed. If the current is not detected in the current transformer for more than a certain time during the operation or when it reaches a predetermined time within the controller, the controller operates the relay to detect the abnormality of the secondary coil of the current transformer through a state detection signal input from the secondary coil state detection unit. In addition to the automatic diagnosis and storage of the results, it also notifies the nearby workers of the electronic electricity meter through an indicator or alarm device, and if necessary, informs the workers of the remote power monitoring room through the communication interface. Allow the manager to act on the current transformer Very useful inventions, such as in the fast secondary coil of the current transformer for the electronic watt-hour meter by enabling you to take in time to avoid accidents that may be caused by power doemeuro aging or breakage occurring.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 shows a block diagram of the apparatus of the present invention, Figure 2 shows the circuit operating state when it is determined that the normal state as a result of determining the state of the secondary coil of the current transformer by operating the apparatus of the present invention, Figure 3 As a result of judging the state of the secondary coil of the current transformer by operating the apparatus of the present invention, the circuit operating state when it is judged as disconnection is shown.

Accordingly, the apparatus of the present invention receives the current flowing through the secondary coil (L2) of the current transformer (1) installed on the power line in real time through the A / D converter (2) to calculate the power consumption of the customer in the control unit (3) In constructing an electronic electricity meter that accumulates

A relay driver 5 installed at an output terminal of the controller 3 to operate the relay 6 in response to an output signal of the controller 3;

The movable terminal c of the contact switch S1 is connected to one end of the secondary coil L2 of the current transformer 1, and the normally closed fixed terminal b and the normally open fixed terminal a are respectively the A / D. When the drive signal is output from the relay driver 5 under the control of the controller 3 and having a configuration connected to the input terminal of the converter 2 and the input terminal of the secondary coil state detection unit 4, normally closed lock is normally performed. The movable terminal c of the contact switch S1 connected to the input terminal of the A / D converter 2 via the terminal b is switched to the normally open fixed terminal a side and the secondary side of the current transformer 1 A relay 6 for connecting one end of the coil L2 to the input terminal of the secondary coil state detection unit 4;

The relay 6 has a configuration provided between the normally open fixed terminal (a) of the contact switch (S1) and the input terminal of the control unit 3 and the contact switch (S1) of the relay (6) operating terminal (c) is always When connected to the open fixed terminal a, the secondary coil state detection unit detects whether current flows normally in the secondary coil L2 of the current transformer 1 and generates corresponding data to the control unit 3 ( 4) and;

Normally, the current flowing through the secondary coil L2 of the current transformer 1 through the A / D converter 2 continues to be detected, and a predetermined time (eg For example, when the time becomes 24:00 of a day) or the current flowing from the A / D converter 2 to the secondary coil L2 of the current transformer 1 flows for a predetermined time (for example, 2-5 minutes) or more. If it is determined that it is not determined to drive the relay (6) through the relay driver 5 and then receives the signal output from the secondary coil state detector (4) to the secondary coil (L2) of the current transformer (1) A control unit (3) for determining whether to disconnect or not to drive the notification means (7) according to the result;

It is determined that the secondary coil (L2) of the current transformer (1) is determined as disconnected as a result of the determination in the control unit (3) and the notification means (7) for notifying the power supply and supply manager when a predetermined drive signal is generated; It is done.

At this time, the secondary coil state detection unit 4 is characterized in that it is composed of a photo coupler (PT).

In addition, the notification means (7) is a display indicating that the secondary coil (L2) of the current transformer (1) is disconnected so that the power supply manager can see through the visual, and generates an alarm sound through the hearing Characterized in that it comprises an alarm to be known.

In addition, if necessary, the self-diagnosis data storage unit 8 is additionally installed at the input / output terminal of the control unit 3 so that the control unit 3 has a predetermined time or the A / D converter 2 pre-inputted therein. It is determined that the current flowing in the secondary coil of the current transformer does not flow for more than a predetermined time. Therefore, the relay 6 is driven and the secondary side of the current transformer 1 is operated by using the data input from the secondary coil state detector 4. Whenever it is determined whether the coil L2 is disconnected, the result data is stored, and then it can be used as control data of the power supply and demand system.

In addition, an output terminal of the control unit 3 is provided with a communication interface 9 capable of performing data communication with a personal computer installed in a remote power monitoring room. Whenever it is determined whether the secondary coil L2 is disconnected, the result is that the data can be transmitted to the personal computer of the remote power monitoring room.

Referring to the effects of the present invention configured as described above are as follows.

First, the apparatus of the present invention receives the current flowing in the secondary coil (L2) of the current transformer (1) installed on the power line from the control unit (3) in real time through the A / D converter (2) to calculate the power consumption of the customer In the known electronic electricity meter, a relay driver 5, a relay 6, a secondary coil state detector 4 and a notification unit 7 are additionally installed, and a part of the control program executed by the controller 3 is provided. If the current is not inputted within the predetermined time or the secondary coil (L2) current of the current transformer 1 input through the A / D converter (2) by the change over the predetermined time to drive the relay (6) 2 The main technology configuration is to determine whether there is a disconnection by receiving the state information on the secondary coil (L2) of the current transformer (1) detected through the secondary side coil state detector (4) and output the result to the notification means (7), etc. Element.

In the above, the relay driver 5 is composed of one transistor, a resistor and a protective diode to drive the relay 6 when a drive signal (that is, a "high" signal) is output from the controller 3. In this case, the movable terminal (c) of the contact switch (S1) built in the relay (6) whose driving is controlled by the relay driver 5 is one end of the secondary coil (L2) of the current transformer (1) And a normally closed fixed terminal (b) and a normally open fixed terminal (a) are connected to an input terminal of the A / D converter 2 and an input terminal of the secondary coil state detection unit 4, respectively. .

Accordingly, the movable terminal c of the relay 6 is normally operated when the drive signal is not generated in the relay driver 5 under the control of the controller 3 (that is, there is no abnormality in the current transformer 1 or the controller When the inspection time of the current transformer stored therein does not arrive) Since the state connected to the normally closed fixed terminal b is maintained, one end of the secondary coil L2 of the current transformer 1 is connected to the relay 6 contact switch S1. Is connected to the input terminal of the A / D converter 2 through the movable terminal (c) and the normally closed fixed terminal (b) of the current transformer (1) and the secondary coil (L2) in response to the power usage of the consumer. The flowing current is input in real time from the control unit through the A / D converter 2 and has a state of using power usage calculation and cumulative data.

On the other hand, a predetermined time (for example, a predetermined time of one day) or a predetermined time (for example, one day of the day) previously inputted by the control unit 3 or a time when the secondary coil L2 current of the current transformer 1 is determined (for example, 2-5 minutes ), When it is determined that no abnormality is introduced, and outputs a "high" signal, which is a driving signal, to the relay driver 5, the transistor in the relay driver is "on", and the excitation coil of the relay 6 is turned on by the relay driver 5. Since it operates in response to the output signal of, the movable terminal (c) of the relay (6) contact switch (S1), which had previously been in contact with the normally closed fixed terminal (b), is always on the open fixed terminal (a) side. Since one end of the secondary coil L2 of the current transformer 1 is transferred through the movable terminal c of the relay 6 contact switch S1 and the normally open fixed terminal a, the secondary coil state detection unit 4 It is automatically connected to the input terminal.

Thus, the movable terminal (c) of the relay (6) contact switch (S1) is switched to the normally open terminal (a) side so that one end of the secondary coil (L2) of the current transformer (1) is connected to the relay (6) contact switch ( When connected to the input terminal of the secondary side coil state detection unit 4 through S1), the secondary side coil state detection unit 4 detects whether current flows normally in the secondary side coil L2 of the current transformer 1 and The control unit 3 generates corresponding data.

At this time, since the secondary coil state detector 4 is configured as a photo coupler, when the current transformer 1 is in a normal state, the current induced by the secondary coil L2 of the current transformer 1 is as shown in FIG. 2. The closed loop current flowing through the contact switch (S1) of the relay (6) and the normally open terminal (a) to the light emitting diode of the photocoupler constituting the secondary coil state detection unit (4) Since the light-receiving transistor is "on" and the output signal of the secondary coil state detection unit 4, which previously held "high", is converted into a "low" signal, the control unit 3 receives this "low" signal. It is possible to recognize that the secondary coil L2 of the current transformer 1 is in a normal state.

However, due to the operation of the relay 6 as described above, the movable terminal (c) of the contact switch (S1) is always switched to the open fixed terminal (a) side so that one end of the secondary coil (L2) of the current transformer (1) is the relay 6 is connected to the input terminal of the secondary coil state detection unit 4 through the contact switch S1, but if the secondary coil L2 of the current transformer 1 is disconnected as shown in FIG. Since the light emitting diode of the photocoupler constituting the secondary side coil state detection unit 4 is turned off, the light-emitting transistor of the photocoupler is turned off so that the secondary side coil state detection unit ( The output signal of 4) is kept in the "high" state.

Therefore, the control unit 3 executing the self-diagnosis program of the current transformer receives an "high" signal output from the secondary coil state detection unit 4, and abnormally causes the current transformer 1 itself or the secondary coil L2 thereof. Or it can be seen that the disconnected state.

Of course, in the process of performing the self-diagnosis to determine the abnormality of the current transformer (1) as described above, as described above, the contact switch (S1) of the relay terminal (c) is always open fixed terminal (a) Since the A / D converter 2 does not operate because it is switched to the secondary coil state detection unit 4, the control unit 3 does not calculate whether the power is used by the receiver.

In addition, the control unit 3 is an ordinary A / D converter in which the electronic electricity meter is normally operating (that is, the contact switch S1 of the relay 6 is switched to the normally closed fixed terminal b). (In the state of connection with (2)), the current flowing through the secondary coil (L2) of the current transformer (1) through the A / D converter (2) continuously detects and continues to accumulate the power consumption of the customer, A current transformer input through the A / D converter 2 while a predetermined amount of time (for example, 24:00 of a day becomes 24:00) or a power meter is detected that power is being used by the customer. If it is determined that the secondary coil L2 current of 1) does not flow for more than a predetermined time (for example, 2-5 minutes), the relay 6 is driven through the relay driving unit 5 so that the current transformer 1 Connect the secondary coil L2 of the to the input terminal side of the secondary coil state detection unit 4. The secondary coil state detector 4 receives the signal output from the secondary coil state detection unit 4 and determines whether there is a disconnection of the secondary coil L2 of the current transformer 1 and outputs the data corresponding to the result. Will be printed.

As such, when the controller 3 receives the status signal for the current transformer secondary coil output from the secondary coil state detection unit 4 and determines whether there is a disconnection, the secondary coil L2 of the current transformer 1 is disconnected. If it is determined that such a state is immediately transmitted to the power supply and demand manager through the notification means (7), such a manager can immediately take the necessary measures.

Of course, if it is determined by the controller 3 that the secondary coil L2 of the current transformer 1 is in a normal state, even though the current transformer 1 itself has no abnormality, the current consumption of the customer in the current transformer 1 is reduced. Recognizing that a corresponding current is not detected and not shown in the drawing, another self-diagnosis program is executed to detect an error in any other component among several components of the power supply system. It will be able to determine if the ecology is impossible and inform the supply and demand manager in another way.

On the other hand, the notification means (7) is determined as the secondary coil (L2) of the current transformer (1) as determined by the control unit 3 is disconnected and is driven when a predetermined drive signal is generated, the power supply manager through the current transformer ( It performs the function to judge the abnormal condition of 1) and take necessary action immediately.

At this time, the notification means (7) can be presented a variety of methods, in the present invention, by indicating that the secondary coil (L2) of the current transformer (1) is disconnected so that the power supply manager can know through time This is an example of selecting and installing an indicator or an alarm that generates an alarm sound so that the power supply manager can know through hearing. However, if necessary, the power supply manager is provided with visual and auditory sound. At the same time, the disconnection state of the secondary coil L2 of the current transformer 1 can be known.

In the present invention, the self-diagnosis data storage unit 8 is further provided in the input / output terminal of the control unit 3 as needed, so that the predetermined time or the predetermined time inputted in the control unit 3 as described above. It is determined that the current flowing from the A / D converter 2 to the secondary coil L2 of the current transformer 1 does not flow for more than a predetermined time, so that the relay 6 is driven to drive the secondary coil L2 of the current transformer 1. Whenever it is determined that there is a disconnection, the data can be saved and provided to the power supply managers as data needed to manage the power supply system.

In the present invention, the communication terminal 9 is additionally provided at the output terminal of the control unit 3 so as to perform data communication with a personal computer installed in a remote power monitoring room. Whenever 3) determines whether the secondary coil L2 of the current transformer 1 is disconnected, the result can be transmitted to the personal computer of the remote power monitoring room through the communication interface 9 so that the remote system can be Managers can immediately recognize when a fault occurs in a specific meter current transformer, take necessary measures such as replacement in a short time, and quickly normalize the power supply system.

Although the above-described embodiments have been described with respect to the most preferred embodiments of the present invention, it is not limited to the above embodiments, and it will be apparent to those skilled in the art that various modifications can be made without departing from the technical spirit of the present invention.

1 is a block diagram of an apparatus of the present invention.

Figure 2 is a circuit operating state when it is determined that the normal state as a result of determining the state of the secondary coil of the current transformer by operating the device of the present invention.

3 is a circuit operation state diagram when it is determined that the disconnection is a result of determining the state of the secondary coil of the current transformer by operating the device of the present invention.

Explanation of symbols on the main parts of the drawings

1: Current transformer 2: A / D converter

3: control unit 4: secondary coil state detection unit

5: relay driving unit 6: relay

7: notification means 8: self-diagnostic data storage unit

9: communication interface L1: secondary coil

S1: contact switch

Claims (6)

In constructing an electronic watt-hour meter that receives the current flowing in the secondary coil of the current transformer installed on the power line through an A / D converter in real time, calculates and accumulates the power consumption of the consumer in the control unit. A relay driver installed in an output terminal of the controller to operate a relay in response to an output signal of the controller; The movable terminal of the contact switch is connected to one end of the secondary coil of the current transformer, and the normally closed fixed terminal and the normally open fixed terminal are respectively connected to the input terminal of the A / D converter and the input terminal of the secondary coil state detector. When the drive signal is output from the relay driver under the control of the controller, the current switch is connected to the input terminal of the A / D converter via a normally closed fixed terminal to a normally open terminal. A relay connecting one end of the secondary coil to an input terminal of the secondary coil state detector; Detects whether current flows normally in the secondary coil of the current transformer when the contact switch operating terminal of the relay is connected between the normally open fixed terminal of the relay contact switch and the input terminal of the controller. A secondary coil state detector for generating data corresponding to the controller; Normally, the current flowing through the secondary coil of the current transformer through the A / D converter is continuously detected, and a predetermined time inputted within itself while calculating and accumulating the power used by the customer, or the secondary coil of the current transformer from the A / D converter. If it is determined that the current flowing in does not flow for more than a predetermined time, the relay is driven through the relay driver and at that time, the output signal of the secondary coil state detector is input to determine whether the secondary coil of the current transformer is disconnected. A control unit which determines whether to drive the notification means according to the result; The secondary side of the current transformer for an electric power meter using an auxiliary relay, characterized in that the secondary relay of the current transformer is determined to be disconnected as a result determined by the control unit to notify the power supply manager when a predetermined drive signal is generated. Coil disconnection self diagnosis device. The method according to claim 1, The secondary side coil disconnection self-diagnosis apparatus of the current transformer for an electronic watt-hour meter using an auxiliary relay, characterized in that the secondary side coil state detector comprises a photo coupler. The method according to claim 1, The notifying means includes an indicator for indicating that the secondary coil of the current transformer is disconnected so that the power supply manager can know through a visual indication that the secondary coil disconnection self-diagnosis of the current transformer for the electronic watt-hour meter using the auxiliary relay. Device. The method according to claim 1, The notifying means includes an alarm for generating an alarm sound that the secondary coil of the current transformer is disconnected so that the supply and demand manager can know through hearing. The secondary coil disconnection self-diagnosis of the current transformer for an electric power meter using an auxiliary relay. Device. The method according to claim 1, The input / output terminal of the control unit stores the result data whenever it is determined whether the secondary coil of the current transformer is disconnected. The self-diagnosis data storage unit is installed to be used as control data of the power supply / demand system. A secondary coil disconnection self-diagnosis apparatus for current transformers for electronic wattmeters using auxiliary relays. The method according to claim 1, The output terminal of the controller is additionally provided with a communication interface capable of data communication with a personal computer installed in a remote power monitoring room, and the result is determined whenever the controller detects disconnection of the secondary coil of the current transformer. A secondary coil disconnection self-diagnosis device for an electric power meter current transformer using an auxiliary relay, characterized in that data can be transmitted to a personal computer in a remote power monitoring room.

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