KR101100083B1 - System and method for measuring errors in a Metering-Out-Fit and Watt-hour meter - Google Patents

Abstract

The present invention relates to an error measuring system and method of a transformer transformer and an electricity meter for an instrument, and a system and method for measuring an error of an instrument transformer, an error of a digital power meter, and a synthesis error of a transformer transformer and a digital power meter of an instrument. will be.

In order to achieve the object of the present invention as described above, the system for measuring the combined error of the transformer transformer current transformer and the power meter connected to the second stage of the transformer transformer current transformer, the first stage of the transformer transformer current transformer A measuring instrument for measuring voltage and current and transmitting the measured voltage and current values to an error measuring instrument; The power amount value of the first stage of the transformer transformer current transformer is calculated from the voltage and current transmitted from the meter for a predetermined time, and the calculated power amount value is compared with the power amount value received from the electricity meter to be measured by the electricity meter. It is configured to include; an error meter for calculating the error of the power amount value.

Description

System and method for measuring errors in a transformer transformer and power meter for instrument {System and method for measuring errors in a Metering-Out-Fit and Watt-hour meter}

The present invention relates to a system and method for measuring errors in transformer transformers and wattmeters, and more particularly, a system for measuring errors in transformer transformers, errors in digital wattmeters, and synthesis errors of transformer transformers and digital wattmeters. And to a method.

Metering-Out-Fit (MOF) and digital meter are used for measuring the amount of power flowing into the high-voltage system faucets. The transformer transformer current transformer (MOF) is a device that simultaneously measures the voltage and current of a system and is generally used for power measurement.

These MOF and digital electricity meter are the standard equipment to measure the electric power used by the customer and calculate the electric charge based on the measured result. Maintenance is very essential.

At present, a variety of devices have been developed and sold as measuring devices for the accuracy of MOF and digital electricity meters. However, these conventional measuring devices are the equipment to measure in the OFF-Line, very expensive, and also difficult to carry without measuring the synthesis error of the MOF and digital meter, maintenance of the MOF and digital meter was very difficult.

The present invention has been made to solve the problems described above, an object of the present invention is to accurately measure the error of the transformer transformer current transformer, the error of the digital power meter and the synthesis error of the transformer transformer current transformer and the digital power meter, The present invention provides a system and method for reducing safety accidents that may occur when measuring errors.

In order to achieve the object of the present invention as described above, the system for measuring the combined error of the transformer transformer current transformer and the power meter connected to the second stage of the transformer transformer current transformer, the first stage of the transformer transformer current transformer A measuring instrument for measuring voltage and current and transmitting the measured voltage and current values to an error measuring instrument; The power amount value of the first stage of the transformer transformer current transformer is calculated from the voltage and current transmitted from the meter for a predetermined time, and the calculated power amount value is compared with the power amount value received from the electricity meter to be measured by the electricity meter. It is configured to include; an error meter for calculating the error of the power amount value.

In this case, the measuring instrument is preferably connected to the error measuring instrument using wireless communication.

The meter may be configured to periodically transmit voltage and current values of the first stage of the transformer transformer current transformer measured according to a preset transmission period to the comparator.

The voltage and current values of the first stage of the transformer transformer current transformer measured by the measuring instrument are preferably instantaneous values of the voltage and current, or effective values and phases of the voltage and current.

On the other hand, the system for measuring the error of the transformer transformer current transformer according to the present invention for achieving the object of the present invention as described above, measuring the voltage and current of the first stage of the transformer transformer current transformer, the measured voltage And a measuring instrument for transmitting the effective value and the phase of the current to the error measuring instrument. Calculate the effective value and phase of the voltage and current of the secondary stage from the instantaneous values of voltage and current measured from the second stage of the transformer transformer current transformer, and transmit the calculated effective value and phase of the secondary stage from the instrument. An error measurer for calculating an error of the voltage and the current measured at the second stage of the transformer current transformer by comparing the first stage voltage and current effective values and phases of the transformer transformer current transformer; It is configured to include.

Further, another system for measuring the error of the transformer transformer current transformer for achieving the object of the present invention as described above, the voltage and current of the first stage of the transformer transformer current transformer for measuring the measured voltage and current A measuring instrument for transmitting an instantaneous value of the to an error measuring instrument; Calculate the effective value and phase of the voltage and current of the first stage from the instantaneous values of the voltage and current of the first stage of the transformer transformer current transformer transmitted from the measuring instrument, and the voltage and current measured from the second stage of the transformer transformer current transformer Calculate the effective value and phase of the second stage voltage and current from the instantaneous value of, and compare the calculated effective value and phase of the second stage voltage with the effective value and phase of the first stage voltage and current. An error measurer measuring an error of the voltage and current measured at the second stage of the current transformer; It is configured to include.

In this case, the measuring instrument is preferably connected to the error measuring instrument using wireless communication.

On the other hand, the error measuring instrument for measuring the error of the wattmeter connected to the second stage of the transformer transformer current transformer for achieving the object of the present invention, the instrument from the voltage and current measured for a predetermined time from the second stage of the transformer transformer current transformer Calculate a power amount value of the second stage of the transformer transformer, and compare the calculated power amount value with the power amount value received from the electricity meter to measure an error of the power amount value measured in the electricity meter.

At this time, the voltage and current measured from the second stage of the transformer transformer current transformer is preferably an instantaneous value of the voltage and current.

On the other hand, the method for measuring the synthesis error of the transformer transformer current transformer and the power meter connected to the secondary stage of the transformer transformer current transformer for achieving the object of the present invention, (a) in the instrument, the first stage of the transformer transformer current transformer Measuring a voltage and a current of the signal and transmitting the measured voltage and current values to an error meter; (b) receiving, at an error meter, a power amount value measured by the electricity meter; (c) In the error measuring device, the power amount value of the first stage of the transformer transformer current transformer is calculated from the voltage and current received during the predetermined time in the step (a), and the calculated power value is received from the electricity meter. Calculating an error of a power amount value measured in the electricity meter by comparing the power amount value with each other; It is configured to include.

In this case, the measuring instrument is preferably connected to the error measuring instrument using wireless communication.

The voltage and current values of the first stage of the transformer transformer current transformer measured in step (a) are preferably instantaneous values of the voltage and current, or effective values and phases of the voltage and current.

On the other hand, the method for measuring the error of the transformer transformer current transformer for achieving the object of the present invention, (a) measuring the voltage and current of the first stage of the transformer transformer current transformer in the instrument, the measured voltage and Transmitting the rms and phase of the current to an error meter; (b) receiving an instantaneous value of the voltage and current measured in the second stage of the transformer transformer current transformer in the error measuring instrument; (c) calculating, in the error measuring device, the effective value and phase of the secondary voltage and current from the instantaneous values of the voltage and current of the secondary stage of the transformer transformer transformer received in the step (b); (d) In the error measuring instrument, the effective value and phase of the voltage and current of the first stage transmitted in the step (a) are compared with the effective value and phase of the voltage and current of the second stage calculated in the step (c). Comprising a step of calculating the error of the secondary voltage and current of the transformer transformer current transformer.

In addition, another method for measuring the error of the transformer transformer current transformer for achieving the object of the present invention, (a) measuring the voltage and current of the first stage of the transformer transformer current transformer in the measuring instrument, Transmitting instantaneous values of voltage and current to an error meter; (b) receiving an instantaneous value of the voltage and current measured in the second stage of the transformer transformer current transformer in the error measuring instrument; (c) calculating, in the error measuring device, the effective value and phase of the primary voltage and current from the instantaneous values of the voltage and current of the primary stage of the transformer transformer transformer received in the step (a); (d) calculating, in the error measuring device, the effective value and phase of the secondary voltage and current from the instantaneous values of the voltage and current of the secondary stage of the transformer transformer transformer received in the step (b); (d) In the error measuring instrument, the effective value and phase of the voltage and current of the first stage calculated in the step (c) are compared with the effective value and phase of the voltage and current of the second stage calculated in the step (d). Calculating an error of the second cut-off voltage and current of the transformer transformer current transformer; It is configured to include.

In this case, the measuring instrument is preferably connected to the error measuring instrument using wireless communication.

On the other hand, the method for measuring the error of the wattmeter connected to the second stage of the transformer transformer current transformer in the error meter of the wattmeter for achieving the object of the present invention, (a) in the error meter, the second stage of the transformer transformer current transformer Receiving a voltage and current value measured at a; (b) receiving, at the error meter, a power amount value measured by the electricity meter; (c) in the error measuring device, calculating a power amount value of the second stage of the transformer transformer current transformer from the voltage and current received during the predetermined time in the step (a), and calculating the calculated power amount value in the step (b) Calculating an error of a power amount value measured by the electricity meter by comparing with the power amount value transmitted from the power meter; It is configured to include.

At this time, the voltage and current measured from the second stage of the transformer transformer current transformer is preferably an instantaneous value of the voltage and current.

The present invention as described above has the advantage that the maintenance workers can immediately make replacement and correction judgment by accurately measuring the error of the transformer transformer current transformer, the error of the digital power meter and the synthesis error of the instrument transformer current transformer and digital meter There is this. In addition, since the transmission and reception of the measured values of the MOF is made through wireless communication, it is possible to reduce the risk of a safety accident.

Details of the above object and technical configuration of the present invention and the effects thereof according to the present invention will be more clearly understood by the following detailed description based on the accompanying drawings.

Prior to the description of the present invention, a detailed description of known functions or configurations related to the present invention will be omitted if it is determined that the gist of the present invention may be unnecessarily obscured.

In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to intention or custom of users and operators. Therefore, such a definition should be determined based on the contents described throughout the specification.

1 is a configuration diagram of a system for measuring a synthesis error of a single-phase instrument transformer current transformer and a digital power meter connected to the second stage of the transformer transformer current transformer.

As shown, the system for measuring the combined error of the transformer transformer current transformer and the digital power meter, it comprises a measuring instrument 110 and the error measuring instrument 120.

The measuring instrument 110 measures the voltage and current of the first stage of the transformer transformer current transformer 10, and transmits the measured voltage and current values to the error measuring instrument 120 using wireless communication.

Voltage and current value measurement and transmission of the first stage of the transformer transformer current transformer 10 in the measuring instrument 110 is initiated by wirelessly receiving a measurement start signal in the error measuring instrument 120. To this end, the error measurer is provided with a wireless communication unit for wireless communication with the measuring instrument.

In addition, when configured to transmit the instantaneous value of the voltage and current value measured by the measuring unit 110, the measuring unit 110 first receives the time synchronization signal from the error measuring unit 120 to measure the measured voltage, current value Synchronize. On the other hand, the measuring instrument 110 may calculate the effective value and phase of the voltage and current without synchronizing the voltage and current values, and transmit the calculated value and phase to the error measuring instrument 120 using wireless communication. In this case, the error measuring instrument 120 Time synchronization signal reception is unnecessary.

Meanwhile, the measuring unit 110 may be configured to periodically transmit the measured voltage and current values of the first stage of the transformer transformer current transformer 10 to the error measuring unit 120 according to a preset transmission period. Can vary from tens of seconds to several seconds.

The error measurer 120 receives the power value measured by the digital wattmeter 20 and uses the voltage and current values of the first stage of the transformer current transformer received from the meter 110 to measure the digital wattmeter ( Measure the error of the amount of power measured in 110). The amount of power output from the digital power meter 20 is obtained by reading the LED value of the digital power meter 20 by the scanning head 30 shown. Since the LED of the digital electricity meter blinks in proportion to the power used, reading the LED value of the digital electricity meter means counting the number of LED blinks. Each digital power meter has a number of pulses required to integrate 1kwh as an instrument constant. Each time this pulse occurs, the LED blinks. The scanning head counts the number of LED blinks for a predetermined time and converts the result into an amount of power to provide the error measuring instrument. The scanning head may also send only the number of LED blinks to the error meter and convert the amount of power from the information.

The error measuring process of the error measuring unit 120 will be described in more detail. First, the error measuring unit 120 receives an instantaneous value or an effective value / phase of voltage and current values from the measuring unit 110 for a predetermined time. In this case, when the value transmitted from the measuring instrument 110 is an instantaneous value, the error measuring instrument 120 calculates an effective value and a phase from the instantaneous value of the voltage and current, and calculates the instantaneous value and phase of the voltage and current, and the values. Calculate the amount of power using the time received. On the other hand, if the value transmitted from the measuring instrument 110 is the effective value and phase of the voltage, current can calculate the amount of power directly from this.

Thereafter, the error measurer 120 receives the measured amount of power from the digital watt-hour meter 20 for the same time as the voltage / current value is received, and compares it with the calculated first-order power amount. Calculate the synthesis error between the 10 and the digital electricity meter 20. The detailed configuration of the error measuring instrument performing the above function can be easily configured by those skilled in the art from the description regarding the function and operation of the error measuring apparatus described above. That is, in a computer or a device having a computing function, the amount of power is calculated from the voltage and current values transmitted from the instrument, the calculated amount of power is compared with the amount of power measured from the meter, and the difference value (error) is calculated, and the overall operation It can be configured by installing a program to control the process. In addition, the computer or a device having a computing function is provided with a program for the above operation, in addition to a wireless communication unit for wireless communication with the instrument, an interface unit for receiving data by wired connection to a scanning head or a power meter, user input It should be apparent to those skilled in the art that hardware elements such as an input control unit and a display unit for displaying information should be provided. The detailed configuration of the error measuring instrument for measuring the synthesis error of the MOF and the electricity meter is not very different from the configuration of the error measuring instrument for measuring the error of the MOF and the electricity meter, so a person skilled in the art can easily configure it with a slight design change. Detailed description thereof will be omitted.

2 is a configuration diagram of a system for measuring the synthesis error of the three-phase transformer transformer current transformer and the digital power meter connected to the second stage of the transformer transformer transformer.

As shown in FIG. 1, the system includes a meter 210 and an error meter 220 as in FIG. 1, and all configurations are the same as in FIG. 1 except that the meter measures three-phase voltage and current. In the following, detailed description thereof will be omitted.

3 is a configuration diagram of a system for measuring an error of a transformer current transformer for a single phase instrument according to the present invention.

As shown, the error measuring system of the transformer transformer current transformer, the instrument 310 and the error measuring unit 320 is configured.

The measuring unit 310 measures the voltage and current of the first stage of the transformer transformer current transformer 10, and transmits the measured voltage and current values to the error measuring unit 320 using wireless communication.

Voltage and current value measurement and transmission of the first stage of the transformer transformer current transformer 10 in the measuring instrument 310 is initiated by wirelessly receiving a measurement start signal in the error measuring unit 320.

In addition, when configured to transmit the instantaneous value of the voltage and current value measured by the measuring unit 310, the measuring unit 310 first receives the time synchronization signal from the error measuring unit 120 to synchronize the measured voltage, current value do. On the other hand, the instrument 110 may calculate the effective value and phase of the voltage and current without synchronizing the voltage and current values, and transmit the calculated value and phase to the error measurer 320 using wireless communication. In this case, the error measurer 320 Time synchronization signal reception is unnecessary.

Meanwhile, the measuring unit 310 may be configured to periodically transmit the measured voltage and current values of the first stage of the transformer transformer current transformer 10 to the error measuring unit 320 in accordance with a preset transmission period. Can vary from tens of seconds to several seconds.

The error measuring unit 320 receives the instantaneous value of the voltage and current measured in the second stage of the transformer transformer current transformer 10, the voltage of the primary stage of the transformer transformer current received from the measuring unit 310 and The error of the voltage and current values measured at the second stage of the transformer transformer current transformer 10 is measured using the current value.

The configuration of the error measurer 320 varies depending on the value received from the meter 310. First, when the effective value and phase of the voltage and current value of the first stage of the transformer transformer current transformer is transmitted from the measuring unit 310, the error measuring unit 320 is measured at the second stage of the transformer transformer current transformer 10 The effective value and phase of the voltage and current of the second stage are calculated from the instantaneous values of the obtained voltage and current, and the calculated effective value and phase of the voltage and current of the second stage are compared with the effective value and phase of the voltage and current values of the first stage. Comparing with each other, the error of the second blocking current and voltage is calculated.

And when the instantaneous value of the voltage and current value of the first stage of the transformer transformer current transformer is transmitted from the measuring instrument 31, the error measuring unit 320 is the effective value and phase of the voltage, current for both the first and second stages And calculates the error of the second-blocking current and the voltage by comparing the calculated RMS and current values of the second-block with the effective values and phases of the voltage and current of the first-block.

Figure 4 is a block diagram of a system for measuring the error of the transformer current transformer for three-phase instrument according to the present invention.

As shown, the error measuring system of the transformer current transformer for a three-phase instrument is configured to include a measuring instrument 410 and the error measuring instrument 420, as in FIG. Except for the comparison, all the configurations are the same as in FIG. 3, and thus, detailed description thereof will be omitted.

5 is a configuration diagram of an error measuring instrument for measuring an error of a digital power meter connected to the second stage of a transformer current transformer for a single phase instrument according to the present invention.

As shown, the error meter 520, the voltage measured in the second stage of the transformer transformer 10 for a predetermined time, the instantaneous value of the current value and the amount of power measured by the digital wattmeter 20 The received power is calculated using the instantaneous values of the voltage and current values, and then calculates the amount of power in the second stage and compares it with the power value measured by the digital power meter 20 to determine the error of the power value measured by the digital power meter 20. Measure

As described above, the power amount value output from the digital power meter 20 is obtained by reading the LED value of the digital power meter 20 by the illustrated scanning head 30.

FIG. 6 is a configuration diagram of an error measuring device for measuring an error of a digital power meter connected to a second stage of a transformer of a three-phase instrument according to the present invention.

As shown, the error measuring device 620 of the three-phase transformer transformer current transformer is the same as in FIG. 5 except that the configuration is compared to the three-phase voltage, current, not single-phase voltage, current, The detailed description thereof will be omitted.

7 is a flowchart illustrating a method for measuring a synthesis error of a transformer transformer and a digital power meter connected to the second stage of the transformer transformer transformer according to the present invention.

First, the instrument measures the voltage and current of the first stage of the transformer transformer current transformer (S701), and transmits the measured instantaneous value of the voltage and current or the effective value and phase of the voltage and current to the error measuring instrument using wireless communication. (S702).

Thereafter, the error meter receives the power value measured by the digital power meter (S703).

Finally, in the error measurer, the error of the power amount value of the digital wattmeter received in step S703 is calculated using the voltage and current of the first stage of the transformer transformer transformer received in step S702 (S704).

8 is a flowchart illustrating a method for measuring an error of a transformer transformer for instrument according to the present invention.

First, the measuring instrument measures the voltage and current of the first stage of the transformer transformer current transformer (S801), and transmits the measured instantaneous value of the voltage and current or the effective value and phase of the voltage and current to the error measuring instrument using wireless communication. (S802).

Thereafter, the error measuring instrument receives the voltage and current values measured at the second stage of the transformer transformer current transformer.

Finally, the error measurer calculates the error of the voltage and current value of the second stage received in step S802 by using the voltage and current of the first stage of the transformer transformer transformer received in step S801 (S804). .

9 is a flowchart illustrating a method for measuring an error of a digital electricity meter connected to the second stage of the transformer transformer in the error meter of the digital electricity meter according to the present invention.

First, in the error measuring instrument, the voltage and current values measured at the second stage of the transformer transformer current transformer, and the power value measured by the digital electricity meter are received (S901 and S902).

Thereafter, the error measurer calculates an error of the amount of power transmitted in step S902 by using the voltage and current values transmitted in step S901 (S903).

Although specific embodiments of the present invention have been described in detail above, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. It should be understood that the embodiments described above are exemplary in all respects and that the present invention is not limited to those described in the detailed description. The scope of the present invention is indicated by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents are included within the scope of the present invention. Should be interpreted.

1 is a configuration diagram of a system for measuring a synthesis error of a single-phase instrument transformer current transformer and a digital power meter connected to the second stage of the transformer transformer current transformer.

2 is a configuration diagram of a system for measuring the synthesis error of the three-phase transformer transformer current transformer and the digital power meter connected to the second stage of the transformer transformer transformer.

3 is a configuration diagram of a system for measuring an error of a transformer current transformer for a single phase instrument according to the present invention.

Figure 4 is a block diagram of a system for measuring the error of the transformer current transformer for three-phase instrument according to the present invention.

5 is a configuration diagram of an error measuring instrument for measuring an error of a digital power meter connected to the second stage of a transformer current transformer for a single phase instrument according to the present invention.

FIG. 6 is a configuration diagram of an error measuring device for measuring an error of a digital power meter connected to a second stage of a transformer of a three-phase instrument according to the present invention.

7 is a flowchart illustrating a method for measuring a synthesis error of a transformer transformer and a digital power meter connected to the second stage of the transformer transformer transformer according to the present invention.

8 is a flowchart illustrating a method for measuring an error of a transformer transformer for instrument according to the present invention.

9 is a flowchart illustrating a method for measuring an error of a digital electricity meter according to the present invention.

Claims (17)

A system for measuring the synthesis error of the transformer transformer current transformer and the power meter connected to the second stage of the transformer transformer current transformer, A measuring instrument for measuring the voltage and current at the first stage of the transformer transformer current transformer and transmitting the measured voltage and current values to an error measuring instrument; A scanning head which is wired to an error measuring instrument, counts the number of blinking LEDs of the watt-hour meter to obtain a power amount for a predetermined time therefrom and provides the value to the error measuring instrument; The power amount value of the first stage of the transformer transformer current transformer is calculated from the voltage and current transmitted from the meter for a predetermined time, and the calculated power amount value is compared with the power amount value received from the scanning head, and measured by the power meter. An error meter for calculating an error of the power amount value; Synthetic error measuring system of transformer current transformer and power meter for instrument comprising a. The method of claim 1, The measuring instrument is a combined error measuring system of the transformer transformer current transformer and the electricity meter, characterized in that connected to the error measuring instrument and the wireless communication. The method according to claim 1 or 2, The measuring unit, the measurement error of the combined transformer current transformer and the wattmeter, characterized in that for transmitting the voltage and current value of the first stage of the transformer transformer current transformer measured in accordance with a predetermined transmission period to the measuring device. The method according to claim 1 or 2, The voltage and current values of the first stage of the transformer transformer current transformer measured by the measuring instrument is an instantaneous value of the voltage and current, or an effective value and phase of the voltage and current. Error measuring system. As a system for measuring the error of the transformer transformer current transformer, A measuring instrument for measuring the voltage and current of the first stage of the transformer transformer current transformer, and transmitting the measured effective value and phase of the measured voltage and current to an error measuring instrument; Calculate the effective value and phase of the voltage and current of the secondary stage from the instantaneous values of voltage and current measured from the second stage of the transformer transformer current transformer, and transmit the calculated effective value and phase of the secondary stage from the instrument. An error measurer for calculating an error of the voltage and the current measured at the second stage of the transformer current transformer by comparing the first stage voltage and current effective values and phases of the transformer transformer current transformer; Error measuring system of transformer current transformer for the instrument comprising a. As a system for measuring the error of the transformer transformer current transformer, A measuring instrument for measuring the voltage and current at the first stage of the transformer transformer current transformer, and transmitting an instantaneous value of the measured voltage and current to an error measuring instrument; Calculate the effective value and phase of the voltage and current of the first stage from the instantaneous values of the voltage and current of the first stage of the transformer transformer current transformer transmitted from the measuring instrument, and the voltage and current measured from the second stage of the transformer transformer current transformer Calculates the effective value and phase of the second stage voltage and current from the instantaneous value of, and compares the calculated effective value and phase of the second stage voltage with the effective value and phase of the first stage voltage and current. An error measurer measuring an error of the voltage and current measured at the second stage of the current transformer; Error measuring system of transformer current transformer for the instrument comprising a. The method according to claim 5 or 6, The measuring instrument is an error measuring system of the transformer transformer current transformer, characterized in that connected to the error measuring instrument using wireless communication. An error measuring system for measuring the error of the electricity meter connected to the second stage of the transformer transformer current transformer, A measuring instrument for measuring the voltage and current of the second stage of the transformer transformer current transformer, and transmitting the measured voltage and current values to an error measuring instrument; A scanning head which is wired to an error measuring instrument, counts the number of blinking LEDs of the watt-hour meter to obtain a power amount for a predetermined time therefrom, and provides the result to the error measuring instrument; Calculate the power amount value of the second stage of the transformer transformer current transformer from the voltage and current received from the instrument, and compares the calculated power amount value with the power amount value received from the scanning head, the error of the power amount value measured in the power meter An error meter for calculating a; Error measuring system of the electricity meter including a. The method of claim 8, Voltage and current measured from the second stage of the transformer transformer current transformer is an instantaneous measurement of the power meter, characterized in that the instantaneous value of the voltage and current. Method for measuring the synthesis error of the transformer transformer current transformer and the power meter connected to the second stage of the transformer transformer current transformer, (a) measuring, at a measuring instrument, a voltage and a current of a first stage of the transformer transformer current transformer, and transmitting the measured voltage and current values to an error measuring instrument; (b) counting the number of blinking LEDs of the watt-hour meter in the scanning head to obtain a power amount for a predetermined time and providing a result value to the error meter; (c) In the error meter, the power amount value of the first stage of the transformer transformer current transformer is calculated from the voltage and current received during the predetermined time in the step (a), and the calculated power amount value is received from the scanning head. Calculating an error of a power amount value measured by the electricity meter by comparing with the power amount value; Synthetic error measuring method of transformer current transformer and power meter for the instrument comprising a. The method of claim 10, Wherein the measuring instrument is connected to the error measuring instrument using a wireless transformer, characterized in that the combined error measuring method of the transformer and the wattmeter. The method according to claim 10 or 11, wherein Voltage transformer and current value of the first stage of the transformer transformer current transformer measured in the step (a) is the instantaneous value of the voltage and current, or the instantaneous voltage and phase of the voltage and current transformer Method for measuring the synthesis error of the power meter As a method for measuring the error of the transformer transformer current transformer, (A) measuring the voltage and current of the first stage of the transformer transformer current transformer in the measuring instrument, and transmitting the measured RMS and phase of the measured voltage and current to the error measuring instrument; (b) receiving an instantaneous value of the voltage and current measured in the second stage of the transformer transformer current transformer in the error measuring instrument; (c) calculating, in the error measuring device, the effective value and phase of the secondary voltage and current from the instantaneous values of the voltage and current of the secondary stage of the transformer transformer transformer received in the step (b); (d) In the error measuring instrument, the effective value and phase of the voltage and current of the first stage transmitted in the step (a) are compared with the effective value and phase of the voltage and current of the second stage calculated in the step (c). Calculating an error of the second cut-off voltage and current of the transformer transformer current transformer; Error measuring method of transformer current transformer for the instrument comprising a. As a method for measuring the error of the transformer transformer current transformer, (A) measuring the voltage and current of the first stage of the transformer transformer current transformer in the measuring instrument, and transmitting the measured instantaneous value of the measured voltage and current to the error measuring instrument; (b) receiving an instantaneous value of the voltage and current measured in the second stage of the transformer transformer current transformer in the error measuring instrument; (c) calculating, in the error measuring device, the effective value and phase of the primary voltage and current from the instantaneous values of the voltage and current of the primary stage of the transformer transformer transformer received in the step (a); (d) calculating, in the error measuring device, the effective value and phase of the secondary voltage and current from the instantaneous values of the voltage and current of the secondary stage of the transformer transformer transformer received in the step (b); (e) In the error measuring instrument, the effective value and phase of the voltage and current of the first stage calculated in the step (c) are compared with the effective value and phase of the voltage and current of the second stage calculated in the step (d). Calculating an error of the second cut-off voltage and current of the transformer transformer current transformer; Error measuring method of transformer current transformer for the instrument comprising a. The method according to claim 13 or 14, The measuring instrument is an error measuring method of the transformer transformer current transformer, characterized in that connected to the error measuring instrument using wireless communication. As a method for measuring the error of the electricity meter connected to the second stage of the transformer transformer current transformer, (a) receiving, by the error measurer, voltage and current values measured at the second stage of the transformer transformer current transformer; (b) the error measuring unit, receiving a power value of the electricity meter from a scanning head; (c) the error measurer calculates a power amount value of the second stage of the transformer transformer current transformer from the voltage and current received during the predetermined time in step (a), and calculates the calculated power amount value in step (b). Calculating an error of the power amount value measured by the electricity meter by comparing with the transmitted power amount value; Error measuring method of the electricity meter, comprising a. The method of claim 16, Voltage and current measured from the second stage of the transformer transformer current transformer is an instantaneous measurement of the power meter, characterized in that the instantaneous value of the voltage and current.

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