KR100618569B1 - Watt-hour meter and method with temperature sensor - Google Patents

Abstract

The present invention relates to an electronic power measuring apparatus and method having a temperature correction function, and in the related art, the resistance of the resistance and the analog / digital converter due to temperature change causes an error in the voltage and current measurement amount, but does not correct the measurement error. There was a problem that an error occurs in the accumulated power amount. In view of the above problems, the present invention provides a voltage / current digital conversion unit for outputting an analog / digital conversion of a voltage converted from step-down voltage and current; A temperature correction data recording unit for recording and providing as a power compensation data a ratio of the measured power of the power measuring device for each temperature to the power of the standard measuring device which does not change the measuring power according to the temperature change; The effective / reactive power is calculated using the voltage and current digital data provided by the voltage / current digital converter, and the power compensation data of the temperature provided by the temperature compensation data recorder is calculated according to the temperature measured by the temperature sensor. A power meter for correcting the power error according to the temperature change by multiplying the active / reactive power, and transmitting the corrected amount of power to the power amount notification unit; It consists of a power amount notification unit that receives and records the amount of power from the power meter and displays the amount of power used in the display window.It predicts the error of the measured power according to the temperature change, corrects the measured power and measures the amount of power. It is effective to measure the precise amount of power by performing the metering.

Description

WATT-HOUR METER AND METHOD WITH TEMPERATURE SENSOR}

1 is a block diagram showing the configuration of a conventional electronic power measuring device.

2 is a block diagram showing the configuration of an electronic power measuring device having a temperature correction function according to an embodiment of the present invention.

3 is an operation flowchart of an electronic power measurement method having a temperature correction function according to an embodiment of the present invention.

4 is an exemplary diagram illustrating a ratio of measured power to standard power according to a temperature change according to an exemplary embodiment of the present invention.

** Description of the symbols for the main parts of the drawings **

10: voltage / current digital converter 20: power meter

21: temperature correction data recording unit 40: power amount notification unit

The present invention relates to an electronic power measuring device and method having a temperature correction function, and more particularly to an electronic power measuring device and method having a temperature correction function that can measure the precise amount of power by correcting the error of power measurement according to temperature will be.

The electronic power measuring device converts voltage and current analog data into digital data, calculates power using the digital data, and accumulates power changes over time to quantify the amount of power. The process of converting voltage analog data into digital data is performed by using a voltage divider circuit using a resistor to step down high tens or hundreds of volts into a few volts that can be converted digitally, and converting current analog data into digital data by using a current transformer. Current transformers are used to convert high currents into low currents and resistors to convert voltages into digital and digital signals to analog / digital converters. When the temperature rises or falls during the digital conversion, the characteristics of the resistor change, and the analog / digital converter also has a change characteristic with temperature, so the data conversion characteristics are different.

Since the change in the data conversion characteristic is due to the material and physical characteristics of the power measuring device, it is not easily overcome. As a result, the electronic power measuring device must predict the change in the data conversion property according to the temperature and correct the current weighing value.

1 is a block diagram showing a configuration of a conventional electronic power measuring device, as shown therein, a voltage divider circuit 11 for dividing a voltage by dividing a commercial voltage; A current classification circuit 12 for converting a current into a corresponding voltage; A voltage / current control circuit 13 for controlling the voltage converted from the reduced voltage and current and outputting the converted voltage to the analog / digital converter; An analog / digital converter 14 for digitally converting analog voltage and current to output voltage and current digital data; And a power meter 15 that calculates effective / reactive power using voltage and current digital data, and integrates and displays the power.

The voltage divider circuit 11 steps down high tens or hundreds of volts voltage to several volts voltage by using a voltage divider circuit using a resistor, and the current classifying circuit 12 uses a current transformer to convert a high current into a low current, Convert to voltage using.

The voltage / current control circuit 13 adjusts the voltage converted from the reduced voltage and current and outputs the converted voltage to the analog / digital converter 14. The analog / digital converter 14 digitally converts analog voltage and current, and outputs voltage and current digital data to the power meter 15.

The power meter 15 calculates the effective / reactive power using voltage and current digital data, integrates and displays the power, and communicates with the power supply server to calculate the corresponding charge, and transmits the accumulated power.

However, in the prior art as described above, there are errors in voltage and current measured amounts due to changes in resistance and characteristics of analog / digital converters due to temperature changes, but errors in integrated power amounts due to failure to correct measurement errors. There is this.

Accordingly, the present invention has been made in view of the above problems, and the electronic power having a temperature correction function to estimate the characteristic change of the measurement device according to the temperature change to correct the error of the power measurement to measure the precise amount of power It is an object of the present invention to provide a measuring device and method.

The present invention for achieving the above object, the voltage / current digital conversion unit for outputting the analog-to-digital conversion of the voltage converted from the step-down voltage, current;
A temperature sensor for measuring the temperature;
A temperature correction data recording unit for recording and providing as a power compensation data a ratio of the measured power of the power measuring device for each temperature to the power of the standard measuring device which does not change the measuring power according to the temperature change;
Calculates the effective / reactive power using the voltage and current digital data provided by the voltage / current digital converter, and calculates power compensation data of the corresponding temperature provided by the temperature correction data recorder according to the temperature measured by the temperature sensor. A power meter for correcting the power error according to the temperature change by multiplying the active / reactive power, and transmitting the corrected amount of power to the power amount notification unit;
Receiving and recording the amount of power from the power meter and characterized in that the power amount notification unit configured to display the amount of power used in the display window.

In addition, the step of pre-recording the ratio of the measured power of the power meter to the power of the standard meter for each temperature as power compensation data;
Calculating power by digitally converting the measured voltage and current;
Measuring the temperature by a temperature sensor;
Calculating the temperature compensated power by multiplying the calculated power by the power compensation data previously recorded corresponding to the temperature according to the current temperature obtained in the measuring of the temperature;
Calculating an amount of power by integrating the temperature compensated power according to an elapsed time;
And converting the amount of power used to the number of pulses (the number of revolutions) based on the meter constant and recording the result.

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

FIG. 2 is a block diagram illustrating a configuration of an electronic power measuring device having a temperature correction function according to an exemplary embodiment of the present invention. As shown in FIG. 2, an analog / digital converter converts a stepped voltage and a current into a power meter. An output voltage / current digital converter 10; A temperature correction data recording unit 21 for recording the power compensation data by the temperature change of the voltage / current digital conversion unit 10 according to the temperature measured by the temperature sensor; The power meter 20 calculates the effective / reactive power using the voltage and current digital data, corrects the power error according to the temperature change by referring to the power compensation data, and transmits the accumulated power to the power amount notification unit 40. )Wow; It is composed of a power amount notification unit 40 for receiving and recording the amount of power from the power meter 20 and displays the amount of power used in the display window.

The voltage / current digital converter 10 converts the voltage converted from the stepped down voltage and current into analog / digital conversion and outputs the converted voltage to the power meter 20. The power meter 20 calculates the effective / reactive power using voltage and current digital data, corrects the power error according to the temperature change, displays the accumulated power amount, and communicates with the power amount notification unit 40 to calculate the corresponding charge. Transmits the accumulated power.

The temperature sensor 22 measures a temperature, and the temperature correction data recording unit 21 records power compensation data due to a temperature change of the voltage / current digital converter 10 according to the measured temperature. The power meter 20 compensates the amount of power by multiplying the calculated active / invalid power by the power compensation data.

The power amount notification unit 40 receives and records the amount of power from the power meter 20, displays the amount of power used in the display window, and communicates with the power supply server to transmit the accumulated power amount.

3 is an operation flowchart of an electronic power measurement method having a temperature correction function according to an embodiment of the present invention, comprising: calculating power by digitally converting a measured voltage and current; Confirming the change in temperature measured by the temperature sensor; Performing temperature compensation on the measured power by comparing the measured power according to the temperature change with the standard power having no error in the temperature change; Calculating the amount of power by integrating temperature-compensated power according to the elapsed time; Converting the amount of power used to the number of pulses (the number of revolutions) based on the meter constant and recording.

Suppose that an electronic power measuring device (hereinafter, referred to as a power meter) calculates power by digitally converting measured voltage and current, and corrects an error according to temperature change in the calculated power.

The power meter accumulates power over time and calculates the amount of power, thus performing temperature compensation for the power.

The temperature compensation for power is calculated by comparing the measured power of the power meter with the temperature change and the power of the standard instrument without error in temperature, and calculating the compensation curve of power according to temperature, and applying the compensation curve to the measured power. Perform temperature compensation on the measured power.

Voltage divider circuit, current divider circuit, and voltage / current control circuit are suitable for digitizing voltage and current, and input them to analog / digital converter of power meter. To indicate.

The investigator puts the power meter into the thermo-hygrostat tester to calculate the compensating curve of the power according to the temperature, and the temperature point (for example, -25 ℃, -15 ℃, -5 ℃, 5) in the range of use (-25 ℃ ~ 55 ℃) Repeat the comparison of the power of the standard instrument with that of the power instrument at several times, and calculate the average at several degrees C, 20 C, 30 C, 40 C, and 55 C) to complete the compensation curve of the power meter against temperature changes.

If there is no change in the difference between the two powers with respect to the temperature change, the ratio of the measured power to the standard power is 1 at every temperature point, and an error curve is generated when the ratio of the two powers to the temperature changes.

The error curve is recorded in a memory inside the power meter and becomes the power meter's compensation curve for future temperature changes. For example, when the internal temperature of the power meter is currently -10 ° C in the compensation curve of FIG. 4 and the measured power is 100W, the compensation data of -10 ° C is predicted in the compensation curve between -15 ° C and -5 ° C. That is, the ratio of the measured power to the standard power at -10 ° C is applied by applying the value of the ratio of the measured power to the standard power to the temperature of (-15 ° C, 0.9), (-5 ° C, 0.95) to the linear function This is 0.975.

The power meter corrects the measured power by multiplying the estimated ratio of measured power to standard power by the measured power, and calculates the amount of power by integrating the power according to the elapsed time. The electric power which correct | amended the error of the measurement power according to a temperature change is integrated over time, and it becomes an integrated electric power amount.

The power meter has a unique meter constant, the meter parameter is a display of the power meter for power usage, the mechanical power meter displays the power used by how many times the internal disc rotates at 1 ㎾h, and the electronic power meter Indicates the number of pulses in the form of optical pulses or electrical contacts of the internal LEDs.

Accumulated power accumulates due to computational characteristics, so overflow occurs beyond the maximum value over time, so the power meter converts and records the amount of power used by the number of pulses (revolutions) based on the instrument constant, which is a unique constant. The power meter communicates with the power supply server and transmits data on the number of pulses indicating the amount of power used to provide information on power bill calculation.

As described in detail above, the present invention has the effect of predicting the error of the measurement power according to the temperature change to correct the measurement power and metering the amount of power to perform a power meter irrelevant to the temperature change to accurately measure the amount of power.

Claims (3)

A voltage / current digital converter configured to output a voltage converted from the reduced voltage and current by analog / digital conversion; A temperature sensor for measuring the temperature; A temperature correction data recording unit for recording and providing as a power compensation data a ratio of the measured power of the power measuring device for each temperature to the power of the standard measuring device which does not change the measuring power according to the temperature change; The effective / reactive power is calculated using the voltage and current digital data provided by the voltage / current digital converter, and the power compensation data of the temperature provided by the temperature compensation data recorder is calculated according to the temperature measured by the temperature sensor. A power meter for correcting the power error according to the temperature change by multiplying the active / reactive power, and transmitting the corrected amount of power to the power amount notification unit; An electric power measuring device having a temperature correction function, comprising: an electric power amount notifying unit configured to receive and record an electric power amount from an electric power meter, and to display an electric power amount used in a display window.        Pre-recording the ratio of the measured power of the power meter for each temperature to the power of the standard meter which does not change the measured power according to the temperature change as the power compensation data; Calculating power by digitally converting the measured voltage and current; Measuring the temperature by a temperature sensor; Calculating the temperature compensated power by multiplying the calculated power by the power compensation data previously recorded corresponding to the temperature according to the current temperature obtained in the measuring of the temperature; Calculating an amount of power by integrating the temperature compensated power according to an elapsed time; Electronic power measurement method having a temperature correction function, characterized in that the step of converting the amount of power used to the number of pulses (revolutions) based on the meter constant. The method of claim 2, wherein the temperature compensation step of the measurement power Calculating a compensation curve of power according to temperature by comparing the measured power of the power meter according to the temperature change at a predetermined temperature with the power of the standard measuring instrument having no error in the temperature change; Predicting the ratio of measured power to standard power at any temperature by applying a value of the ratio of measured power to standard power for different temperatures in a compensation curve to a linear function; And calculating the temperature compensated power by multiplying the estimated ratio of measured power to standard power by the measured power.

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