KR20020007007A - Electronic watt-hour meter for respective household - Google Patents

Abstract

PURPOSE: A watt-hour meter is provided to maintain continuity by removing quantization errors generated in a process of integrating watt-hour. CONSTITUTION: A voltage signal detecting/converting unit(100) detects the first voltage signal proportional to a load voltage applied to a power supply line and converts it into a certain level of the second voltage signal. A current signal detecting/converting unit(110) detects a current signal and converts it into the third voltage signal. A calculator(120) calculates the second and third voltage signals from the detecting/converting units(100,110) into a certain amount of watt-hour. A frequency converter(130) converts the watt-hour from the calculator(120) into a frequency signal. A storage unit(150) stores an integrated result in a central processing unit(140). An output unit(160) outputs the integrated result in the central processing unit. A communication unit(170) supports communication with an external remote detector. An ID setting unit(180) sets an ID for identifying a unit family. A pulse output unit(190) outputs a pulse for a certain amount of watt-hour.

Description

Electronic electricity meter for unit generation {ELECTRONIC WATT-HOUR METER FOR RESPECTIVE HOUSEHOLD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic wattmeter, and more particularly, to a unit generation electronic wattmeter for eliminating quantization errors occurring during the process of integrating the wattage to maintain continuity of the wattmeter.

Comparing general electronic wattmeters with inductive wattmeters which are mechanically constructed, electronic wattmeters can be considered to have excellent characteristics over time because there are no mechanical moving parts.

In other words, the accuracy of the meter is kept unchanged for a long time, miniaturization is possible because the circuit is configured using an integrated circuit instead of an analog circuit. In addition, it is possible to remote meter reading using the interface with a computer and a dedicated line or a telephone line.

Due to these advantages, an electronic wattmeter has been developed in place of the conventional inductive wattmeter, which will be described with reference to FIG. 1 as an example.

1 is a block diagram of a conventional electronic integrated power meter, which is disclosed in Patent Publication No. 91-9904, and an operation process is as follows.

Voltage signals ev of two signals proportional to the load voltage V and having a phase difference of 180 degrees from each other are generated in the voltage dividing circuit 20 and applied to the sampling and holding circuit 23. A voltage signal ei proportional to the consumption current I is generated via the current-voltage conversion circuit 21 and applied to the sampling and holding circuit 24.

The sampling and holding circuits 23 and 24 sample and hold the voltage signals ev and ei individually.

On the other hand, the voltage signal ev output from the voltage dividing circuit is also applied to the delay time detection circuit 27, and detects the delay signal of the voltage signal ev according to the clock pulse of the clock pulse generator 28 to detect the microprocessor 29 ) Is applied. The microprocessor 29 commands to output the sampling signal to the sampling and holding circuits 23 and 24 simultaneously.

At this time, the sampling and holding circuits 23 and 24 apply the sampling signal to the multiplexer 25 at the same time, and the microprocessor 29 counts a predetermined number of clock pulses of the clock pulse generator 28 and then multiplexer 25. Command to select and output one of the voltage signals ev and ei to the A / D converter 26.

Subsequently, upon completion of the A / D conversion, the A / D converter 26 supplies the completion signal to the microprocessor 29, and the microprocessor 29 checks the signal conversion completion signal and inputs the digital conversion signal as a data signal. do. Then, the delay time is detected again. The voltage data is delayed by 90 degrees and multiplied by the current data. Therefore, when the voltage signal ev from the voltage dividing circuit 20 crosses the zero level, the pulse time of the clock pulse generator 28 is counted for the time corresponding to the peak time to detect the delay time.

After storing the input data for the delay time, this data is multiplied by the current data. The power consumption is accumulated by the signal, and the weighing number is digitally displayed on the display means 30.

3 is a graph showing the conversion characteristics of the A / D converter 26 shown in FIG.

Referring to FIG. 3, there is a problem in that a quantization error occurs between an output of an A / D converter 26 used in a conventional electronic wattmeter and an output of a multiplexer that samples and holds a voltage signal.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and an object of the present invention is to provide an electronic electricity meter for a unit generation that maintains the continuity of the electricity meter by eliminating quantization errors occurring during the process of integrating the amount of electricity.

Another object of the present invention is to provide an electronic electricity meter for a unit generation, which has a small size, a simplified structure, and a low cost.

It is still another object of the present invention to provide an electronic generation meter for a unit generation capable of remote reading through communication with an external remote reading device.

In order to achieve the above object, according to an embodiment of the present invention, voltage signal detecting and converting means for detecting a voltage signal proportional to the load voltage applied to the unit generation power supply line and converting it into a voltage signal of a predetermined level; Current signal detection and converting means for detecting a current signal proportional to a load current applied to the unit generation power supply line and converting the current signal into a voltage signal; Calculating means for calculating a voltage signal output from said voltage signal detecting and converting means and said current signal detecting and converting means and outputting power consumption; Voltage-to-frequency conversion means for converting the power consumption output from the calculation means into a frequency signal; Central processing means for receiving the frequency signal output from the voltage to frequency converting means and integrating power consumption; Storage means for storing the result accumulated in the central processing means; It provides an electronic generation meter for a unit generation including an output means for outputting the result integrated in the central processing means.

In addition, one embodiment of the present invention includes an external counting pulse output means for outputting a pulse for every predetermined amount of power in accordance with the power consumption accumulated in the central processing means.

One embodiment of the present invention is characterized in that it further comprises a communication means for supporting communication with an external remote meter reading device, and a remote meter reading ID setting means for setting an ID for identifying the unit household.

1 is a block diagram of a conventional electronic integrated power meter,

Figure 2 is a block diagram showing an embodiment of an electronic generation meter for unit generation according to the present invention,

3 is a graph illustrating conversion characteristics of the A / D converter illustrated in FIG. 1;

FIG. 4 is a graph illustrating linear proportional conversion characteristics of the voltage-to-frequency converting means illustrated in FIG. 2.

<Description of the symbols for the main parts of the drawings>

100: voltage signal detection conversion means 110: current signal detection conversion means

120: calculation means 130: voltage to frequency conversion means

140: central processing means 150: storage means

160: output means 170: communication means

180: remote meter reading ID setting means 190: external output pulse output means

These objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

2 is a block diagram showing an embodiment of an electronic generation meter for unit generation according to the present invention.

Referring to FIG. 2, the present invention provides a voltage signal detecting and converting means 100 for detecting a voltage signal proportional to a load voltage applied to a unit generation power supply line and converting the voltage signal into a voltage signal of a predetermined level and applied to the unit generation power supply line. A current signal detection converting means 110 for detecting a current signal proportional to the load current to be converted into a voltage signal, and calculating a voltage signal output from the voltage signal detecting conversion means and the current signal detecting conversion means to output power consumption. A central processing unit for calculating the power consumption from the calculation unit 120, the voltage-to-frequency conversion unit 130 for converting the power consumption output from the calculation unit into a frequency signal, and integrating the power consumption by receiving the frequency signal output from the voltage-to-frequency conversion unit; Means 140, a storage means 150 for storing the result accumulated in the central processing means, an output means 160 for outputting the result accumulated in the central processing means, A predetermined amount of power in accordance with the communication means 170 for supporting communication with the external remote meter reading device, the remote meter reading ID setting means 180 for setting an ID for identifying a unit household, and the power consumption accumulated in the central processing means; External count pulse output means 190 for outputting a pulse every time.

Referring to the operation process of the present invention configured as described above in detail as follows.

The voltage signal detecting and converting means 100 detects a voltage signal proportional to the load voltage applied to the unit generation power supply line, and then converts the voltage signal into a voltage signal ev of a predetermined level. The current signal detecting and converting means 110 detects a current signal proportional to the load current applied to the unit generation power supply line, and converts the current signal into a voltage signal iv.

The calculating means 120 receives the voltage signal output from the voltage signal detecting and converting means 100 and the current signal detecting and converting means 110 to calculate the power consumption pv. Voltage to frequency converter (VF converter) 130 converts the power consumption (pv) output from the calculation means 120 into a frequency signal, the conversion characteristics will be described with reference to FIG. . Here, the power consumption pv output from the calculating means 120 is a voltage signal.

FIG. 4 is a graph illustrating linear proportional conversion characteristics of the voltage-to-frequency converting means illustrated in FIG. 2. Referring to FIG. 4, the voltage-to-frequency converting unit 130 outputs a frequency signal linearly proportional to the power consumption output from the calculating unit 120. Therefore, since the quantization error occurring in the conventional A / D conversion process does not occur in the voltage-to-frequency conversion means, accurate power consumption can be obtained.

The central processing unit 140 integrates the power consumption according to the frequency signal output from the voltage-to-frequency converting means, and stores the integrated result in the storage means 150.

As the storage means 150, it is preferable to use an electric power consumption result such as EEPROM (Electrically Erasable and Programmable ROM) that can maintain the accumulated power consumption even during a power failure.

The output means 160 preferably uses a display means such as a liquid crystal display (LCD) to digitally display the power consumption accumulated in the central processing means 140.

The communication means 170 supports the remote meter reading through the communication of the amount of power used in the unit generation. In addition, the communication means 170 has a communication port and is connected to an external remote meter reading device, and is controlled by the central processing means 140.

Since the electricity meter is installed for each unit household, it is provided with a remote meter reading ID setting unit 180 for setting an ID (ID) for identifying the unit household, and inputted into the remote meter reading ID setting unit 180. The data is stored in the storage means 150 through the central processing means 140.

In addition, the external counting pulse output unit 190 may cope with the conventional inductive type meter reading power meter by outputting a pulse for every predetermined amount of power in accordance with the power consumption accumulated in the central processing unit 140.

For example, if a power amount of 20KW is outputted once per 1KW, a total of 20 pulses are output. Here, the reference power amount for outputting the pulse can be adjusted by the operator according to the system to implement.

Therefore, the amount of power used can be easily read by counting pulses output from the external counting pulse output means 190 in other metering devices.

The present invention is not limited to the embodiments described above, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

As described above, the present invention can remove the quantization error generated during the process of integrating the amount of power, thereby taking advantage of the electronic power meter while maintaining the continuity of the inductive meter.

In addition, by using an integrated circuit, the size of the electronic electricity meter can be reduced in size, the structure is simplified, and the cost can be lowered.

In addition, by using an interface with a computer and communication such as a dedicated line or a telephone line, it is possible to remotely read with an external remote metering device.

Claims (4)

Voltage signal detection and converting means for detecting a voltage signal proportional to a load voltage applied to the unit generation power supply line and converting the voltage signal into a voltage signal having a predetermined level; Current signal detection and converting means for detecting a current signal proportional to a load current applied to the unit generation power supply line and converting the current signal into a voltage signal; Calculating means for calculating a voltage signal output from said voltage signal detecting and converting means and said current signal detecting and converting means and outputting power consumption; Voltage-to-frequency conversion means for converting the power consumption output from the calculation means into a frequency signal; Central processing means for receiving the frequency signal output from the voltage to frequency converting means and integrating power consumption; Storage means for storing the result accumulated in the central processing means; And an output unit for outputting the integrated result of the central processing unit. The method of claim 1, And an external counting pulse output means for outputting a pulse for every predetermined amount of power in accordance with the power consumption accumulated in the central processing means. The method of claim 2, Communication means for supporting communication with an external remote meter reading device; And a remote meter reading ID setting means for setting an ID for identifying the unit household. The method of claim 1, wherein the voltage to frequency conversion means And an electric power meter for unit generation, characterized in that for converting the voltage signal converted into power consumption by the calculating means into a frequency signal which is linearly proportional.