KR101087646B1 - Electronic watt hour meter to facilitate data restore and method for data restore using the same - Google Patents

Abstract

A power supply unit for supplying an operating voltage, a power measurement unit for measuring power data from a power element, a central processing unit for controlling calculation and input / output of power data, a memory unit for storing the calculated power data, and a calculated power data display An electronic wattmeter including a display unit and a communication control unit for controlling transmission and reception of power data to and from the outside, wherein the memory unit comprises a nonvolatile time unit memory that accumulates power amount at a predetermined cycle, and the central processing unit has a unique identification number. The apparatus further includes a memory ring in which a plurality of individual memories are combined, and each of the individual memories sequentially accumulates the amount of power in a predetermined period, and the amount of integration of the amount of power recorded in each of the individual memories is greater than the period of integrating the amount of power of the time unit memory. Relatively shorter.
According to the present invention configured and functioning as described above, the amount of power is sequentially accumulated in a predetermined cycle to a memory ring in which a plurality of individual memories having a unique identification number are combined, thereby improving measurement accuracy of the amount of power, and integrating the amount of power sequentially. By using the relationship of each individual memory, there is an advantage that the power amount data can be restored while minimizing the error of power amount in case of electric shock or error.

Description

Electronic wattmeter for easy data restoration and data restoration method using same {{ELECTRONIC WATT HOUR METER TO FACILITATE DATA RESTORE AND METHOD FOR DATA RESTORE USING THE SAME}

The present invention relates to an electronic wattmeter for easy data restoration and a method for restoring data using the same, and more particularly, to an electronic wattage recovery device capable of restoring power data while minimizing data loss when an error occurs due to an electric shock. The present invention relates to a power meter and a data recovery method using the same.

The Watt Hour Meter is a device for measuring the amount of electricity used, which includes a mechanical (inductive) meter and an electronic meter.

Mechanical electricity meters are mainly used in homes, and only the power consumption is measured using a rotating disc. Electronic electricity meters are mainly used in industrial sites, and electric power meters are used not only for power consumption but also for three-phase current and voltage in power systems. All parameters can be measured.

Recently, a variety of electronic wattmeter has been released in various sizes, such as small size, light weight and various functions.

However, in contrast to mechanical electricity meters which can be free of electric shock, electronic electricity meters store power measurements as electronic data, so there is a possibility of data loss when exposed to electric shock.

In order to solve such problems of the electronic electricity meter, various methods for absorbing electric shocks have been proposed.

However, even if it absorbs electric shocks on its own, the stored memory may be lost because it does not absorb all electric shocks. In particular, if there is a problem in the memory where data is stored due to a momentary power loss such as a power failure, There was a problem that errors occur as much as surveying.

An object of the present invention for solving the above problems, based on the measurement accuracy, and the electronic electricity meter that can restore the data by minimizing the error of the power amount in the event of electrical shock or error as well as safe management of data stored in the memory And it provides a data recovery method using the same.

The present invention for achieving the above object, the power supply unit for supplying the operating voltage, the power measurement unit for measuring the power data from the power element, the central processing unit for controlling the operation and input and output of the power data, and the calculated power data An electronic wattmeter including a memory unit for storing, a display unit for displaying the calculated power data, and a communication controller for controlling transmission and reception of power data with an external device, wherein the memory unit is a non-volatile time unit for accumulating power in a predetermined cycle. The central processing unit further includes a memory ring in which a plurality of individual memories having a unique identification number are combined, and the respective amounts of power are sequentially accumulated in a predetermined cycle in each of the individual memories, and the amount of power recorded in each of the individual memories. The integration period is relative to the power integration period of the time unit memory. That shorter as it characterized.

According to a preferred embodiment, the amount of power accumulated in the memory ring is reflected in the time unit memory at regular intervals.

According to a preferred embodiment, the amount of power is accumulated in the unit of time in the time unit memory, and the amount of power is accumulated in the unit of 10 seconds in each individual memory.

According to a preferred embodiment, the data restoration method using the electronic wattmeter includes a first step of reading the amount of power accumulated in each individual memory; and searching for the individual memory in which the largest amount of power is recorded in each of the individual memories. A second step of obtaining a difference between the largest amount of power of the individual memory retrieved in the second step and the amount of power recorded in the previous step of the individual memory, and repeating the calculation to the individual memory in which the lowest amount of power is recorded; And, when the value of the difference in power amount according to the third step exceeds the maximum accumulated amount per cycle, it is determined as an error point, except for the individual memory in which the relatively large amount of power is recorded in the two individual memories calculated at this error point. A fourth step of searching for the individual memory in which the largest amount of power is recorded among the remaining individual memories; And a fifth step of determining and restoring the power amount data of the individual memory retrieved in the fourth step as normal data and sequentially restarting the power amount integration from the individual memory 42.

According to a preferred embodiment, each step is characterized in that it is performed repeatedly for each power accumulation period of the memory ring.

According to a preferred embodiment, in the third step, if the majority of individual memories are determined to be error points, the power amount accumulation record of all the individual memories is reset, and the latest amount of power recorded in the time unit memory is reflected in any one individual memory. After resuming the power amount data, restart the integration of the amount of power in the memory ring

According to the present invention configured and functioning as described above, the amount of power is sequentially accumulated in a predetermined cycle to a memory ring in which a plurality of individual memories having a unique identification number are combined, thereby improving measurement accuracy of the amount of power, and integrating the amount of power sequentially. By using the relationship of each individual memory, there is an advantage that the power amount data can be restored while minimizing the error of power amount in case of electric shock or error.

1 is a block diagram illustrating an electronic power meter capable of easily restoring data according to an exemplary embodiment of the present invention.
2 is an exemplary view showing data in which power amount is accumulated in an embodiment of the present invention.
3 is an exemplary diagram showing a memory ring for explaining a data recovery method using the electronic electricity meter of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The features and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments based on the accompanying drawings.

Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

In addition, it will be apparent to those skilled in the art that the present invention may be practiced without specific details such as specific components in the following description. Therefore, a detailed description of the general configuration for the governor well known in the art will be omitted.

1 is a block diagram illustrating an electronic power meter capable of easily restoring data according to an exemplary embodiment of the present invention.

Referring to FIG. 1, an electronic wattmeter for easily restoring data includes a power supply unit 10 for supplying an operating voltage, a power measurement unit 20 for measuring power data from a power element, and calculation and input / output of power data. A central processing unit 30 for controlling the control unit, a memory unit 50 for storing the calculated power data, a display unit 60 for displaying the calculated power data, and a communication controller for controlling transmission and reception of power data with the outside ( 70).

Here, the memory unit 50 is composed of a nonvolatile time unit memory 50 that accumulates the amount of power at a predetermined cycle, and the central processing unit 30 is a memory in which a plurality of individual memories 42 having a unique identification number are combined. It is preferable that the ring 40 further comprises.

Here, the memory ring 40 may be interpreted as a plurality of memories connected in a ring form on the hardware. Specifically, one consisting of a combination of divided memories having a unique identification number, that is, an individual address. It consists of a non-volatile memory (EEPROM) or NAND flash memory (EEPROM).

As described above, each individual memory 42 having an individual address is sequentially accumulated with a predetermined amount of power, and the amount of integration of the amount of power recorded in each of the individual memories 42 is greater than that of the time unit memory 50. Relatively shorter ones are preferred. According to a preferred embodiment, the amount of power can be accumulated in the time unit memory 50 in units of 1 hour, and the amount of power can be accumulated in units of 10 seconds in each of the individual memories 42. In addition, the aforementioned 'power accumulation period recorded in each individual memory 42 is relatively shorter than the power integration period of the time unit memory 50'. In accordance with the condition that the power amount integration period of the individual memory 42 and the time unit memory 50 can be appropriately adjusted by those skilled in the art.

2 illustrates an example of data in which power is accumulated in an embodiment of the present invention.

Referring to FIG. 2 on the basis of the above description, it can be seen that the amount of power accumulated in the memory ring 40 is reflected in the time unit memory 50 at regular intervals, each of which constitutes the memory ring 40. The amount of power is accumulated in the memory 42 in units of 10 seconds, and the amount of power of the individual memory 42 is reflected and stored in the time unit memory 50 every hour.

Such a structure not only has a remarkable effect in data recovery to be described later, but also improves the precision of power measurement by minimizing the interval where error can be generated by subdividing the power integration period.

In this case, the time unit memory 50 does not reflect only the amount of power accumulated in the memory ring 40, and may periodically accumulate the amount of power separately from the memory ring 40. This is to be used as an alternative means when a fatal error occurs in each individual memory 42 and cannot be recovered.

In the following, the data restoration method of the electronic wattmeter of the present invention will be described based on the principle of the memory ring 40 described above.

According to a preferred embodiment of the present invention, a data restoration method of an electronic wattmeter includes a first step of reading an amount of power accumulated in each of the individual memories 42 and an individual memory having the largest amount of power recorded in each of the individual memories 42. 42, the difference between the largest amount of power of the individual memory 42 retrieved in the second step and the amount of power recorded in the previous step of the individual memory 42; The third step of repeating up to the recorded individual memory 42, and when the value of the difference in power amount by the third step exceeds the maximum accumulated amount per cycle, it is determined as an error time point, the two individual memory calculated at this error time The fourth step of searching for the individual memory 42 in which the largest amount of power is recorded among the remaining individual memories 42 except for the individual memory 42 in which the relatively large amount of power has been recorded in (42), and in the fourth step Found And reconstructing the power amount data of the separate memory 42 as normal data, and sequentially restarting the power amount integration from the individual memory 42.

Here, each of the steps may be repeated for each power accumulation period of the memory ring.

In addition, when the majority of individual memories are determined to be error points in the third step, the accumulated power amount recording of all the individual memories is reset, and the power amount data is restored by reflecting the latest power amount recorded in the time unit memory in any one individual memory. After that, it is preferable to restart the integration of the amount of power in the memory ring.

Each of the above-described steps will be described with reference to FIG. 3 by way of example.

3 is an exemplary view showing a memory ring for explaining a data recovery method using the electronic electricity meter of the present invention. (In this case, it is assumed that the power amount integration cycle of each individual memory is 10 seconds, and the energy meter specification is 5 kWh, and 5 kWh. The maximum accumulated amount in one cycle of (5000Wh) is 1.28Wh.)

First, when the amount of power accumulated in each of the individual memories 42 is read and the individual memory 42 in which the largest amount of power is recorded is searched for, it is the individual memory 42c of Address 3 in which the accumulated amount of 108.2 Wh is recorded.

Then, the difference between the amount of power recorded in the individual memory 42c of Address 3 and the amount of power recorded in the individual memory 42b of Address 2 of the previous step is obtained. This calculation results in '108.2-100.2 = 8Wh', which exceeds 1.28Wh, which is the maximum integration amount of one cycle of the electricity meter, so that the individual memory 42c of Address 3 is determined to be an individual memory 42c recorded as an error. At this time, the rest of the individual memory 42 is calculated in the same manner to search for all the individual memory 42 recorded as an error. In the embodiment of FIG. 3, only the individual memory 42c of Address 3 is recorded as an error. Is searched for at 42c.

Here, the individual memory 42 in which the largest amount of power is recorded is searched among the remaining memory 42 except the individual memory 42c of the address 3. Referring to FIG. 3, the individual memories 42d and 42e of the addresses 4 and 5 are recorded. You can see that.

Next, the power amount of 100.3Wh recorded in the individual memories 42d and 42e of Address 4 and 5 is judged and restored as normal data, and then the power meters are restarted normally by sequentially restarting the integration of the power quantities from the individual memories 42d and 42e. Done.

In the above-described embodiment, a process of recovering power amount data for an error in any one of the individual memories 42 in the memory ring 40 consisting of five separate memories 42 has been described. In addition, various modifiable methods can be applied to electronic meters to restore energy data while minimizing errors in the amount of electricity in the event of electrical shock or errors.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order that the claims that follow may be better understood. It should be appreciated by those skilled in the art that the above-described concepts and specific embodiments of the present invention can be used immediately as a basis for designing or modifying other shapes for carrying out similar objects to the present invention.

In addition, the above-described embodiment is only one embodiment according to the present invention, and various modifications and changes may be made by those skilled in the art within the scope of the technical idea of the present invention. These various modifications and changes are also within the scope of the technical idea of the present invention, and will be included in the claims of the present invention described below.

10: power supply unit 20: power measurement unit
30: central processing unit 40: memory ring
42: Individual memory 50: Memory unit (time unit memory)
60: display unit 70: communication control unit
SP: Surge Protector CT: Current Transfomer
CR: Coupling tRansfomer PLC: Power Line Communication

Claims (6)

delete delete delete It is for measuring, storing, displaying, and transmitting various power data from a power element. A power supply unit for supplying an operating voltage, a power measurement unit for measuring power data from the power element, and a central processing unit for controlling calculation and input / output of power data. And a memory unit for storing the calculated power data, a display unit for displaying the calculated power data, and a communication controller for controlling transmission and reception of power data with an external device. The central processing unit further includes a memory ring in which a plurality of individual memories having a unique identification number are combined, and the power amount is sequentially accumulated in a predetermined cycle in each of the individual memories. The period of integration of the amount of power recorded in each individual memory is As a method of restoring data using an electronic wattmeter, which is easier to restore data, which is relatively shorter than the power accumulation period of a simple memory,
A first step of reading the amount of power accumulated in each individual memory;
A second step of searching for an individual memory in which the largest amount of power is recorded in each individual memory;
A third step of obtaining a difference between the largest amount of power of the individual memory retrieved in the second step and the amount of power recorded in the previous step of individual memory, and repeating this calculation to the individual memory in which the lowest amount of power is recorded;
If the value of the difference in power amount according to the third step exceeds the maximum accumulated amount per cycle, it is determined as an error time point, and each individual except the individual memory whose relatively large amount of power is recorded in the two individual memories calculated at this error time. A fourth step of searching for an individual memory in which the largest amount of power is recorded among the memories; And
And restoring power amount data of the individual memory retrieved in the fourth step as normal data, and then restarting the integration of power amount sequentially from the individual memory 42; and restoring data of the electronic power meter. Way. The method of claim 4, wherein
Wherein each step is repeated for each power integration period of the memory ring. The method of claim 4, wherein
In the third step, if the majority of individual memories are determined to be error points, the power accumulation record of all the individual memories is reset, and the power amount data is restored by reflecting the latest power amount recorded in the time unit memory in any one individual memory. A method for restoring data of an electronic watt-hour meter, characterized by restarting integration of the amount of power in a memory ring.

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