KR101099819B1 - System, apparatus and method for energy management - Google Patents

Abstract

PURPOSE: An energy management system, an energy management apparatus, and an energy management method are provided to precisely check conduction or short-circuit situations in a customer unit, thereby appropriately handling conduction or short-circuit situations. CONSTITUTION: A plurality of terminal sockets(23) includes a unique identification number. The terminal sockets measure and transmit a power consumption amount of each load connected to each terminal socket. A watt-hour meter(21) is combined with a single power line. The watt-hour meter receives power consumption amount information of each load from the terminal sockets. The watt-hour meter checks conduction or short-circuit situations based on a difference by comparing a measured total power consumption amount with the power consumption amount of each load.

Description

Energy Management System, Apparatus and Method for Energy Management

The present invention is to enable efficient energy management, and in particular, it is possible to accurately check whether or not a challenge or a short circuit occurs in each power consumer in which the electricity meter is installed, and allow the user to respond appropriately.

In the supply and use of electrical energy, the monitoring and control of short-circuits or short-circuits are always important issues. Recently, functions for such smart meters are required.

When a challenge or a short circuit occurs, not only electric energy is wasted but also a risk of a safety accident such as an electric shock or a fire increases, and in particular, a challenge directly causes an economic loss to a utility company.

In monitoring a challenge or a short circuit, it is important to know the location as well as whether or not such a situation is occurring, and it is necessary to minimize the inconvenience of the user in the process of identifying the challenge or the short circuit.

Accordingly, the present invention has been made to meet the above necessity, and provides an energy management system, an energy management device, and an energy management method capable of accurately grasping a challenge or a short circuit situation in a power consumer unit without causing inconvenience to a user. Its purpose is to.

In order to achieve the above object, the energy management system and the energy management device according to the present invention, each having a unique identification number and at least one terminal outlet for measuring and transmitting the power consumption of the individual load connected to it; And a power meter coupled to a single power line for supplying power to each terminal outlet.

In particular, the electricity meter receives power consumption information of the individual loads transmitted by the respective terminal outlets, compares the sum of the power consumptions of the individual loads with the total power consumption measured by the terminal, and the difference is outside the preset limit value. Based on the degree, determine whether there is a challenge or a short circuit.

Energy management method according to the present invention, the terminal power measurement step of measuring the amount of power consumption of the individual load connected to the one or more terminal outlet having a unique identification number; A transmission step of each terminal outlet transmitting power consumption information of the measured individual loads to a power meter; A reception step of receiving, by the electricity meter, power consumption information of an individual load transmitted from each terminal outlet; A comparison step of the electricity meter comparing the sum of the power consumption of each individual load with the total power consumption measured by the electricity meter; And determining, by the watt-hour meter, whether a difference or a difference between the sum of the power consumption of each individual load and the total power consumption measured by the power meter deviates from a preset limit value.

The terminal outlet may transmit power consumption information of the individual load to a power meter using power line communication (PLC) or Zigbee communication.

The limit value may be set to include at least the power consumption measurement error of the electricity meter and the terminal outlet.

The electricity meter may be configured to allow a user to set the threshold value.

When it is determined that a challenge or a short circuit occurs, the electricity meter may transmit a warning message to the display device.

The display device may include an In Home Display (IHD) device.

The electricity meter may determine whether to transmit a warning message based on one or more of the number of occurrences of a challenge or a short circuit and a duration thereof.

According to the present invention, the electricity meter receives the power consumption information of the individual loads from each terminal outlet, and compares the sum with the total power consumption of the corresponding power consumer measured by the user to identify a challenge or leakage state.

Therefore, the location of the power consumer can be identified as well as whether or not a challenge or a short circuit is occurring.

From the user's point of view, all the loads need to be connected through the terminal outlet, and no action such as shutting off all power consumers at the same time when identifying a challenge or a short circuit is not inconvenient for the user. Identify challenges or short circuits.

In addition, when it is determined that a challenge or a short circuit occurs, it may be transmitted to a display device such as an IHD (In Home Display) so that the user can check the situation and take appropriate countermeasures.

In response to the trend of the Smart Grid society, users can more actively manage and control various situations related to energy use.

1 is an embodiment of an energy management system according to the present invention;
2 is an example of an operation process of a terminal outlet;
3 and 4 are examples illustrating a process of determining whether the electricity meter is conductive or short-circuit;
5 illustrates each embodiment related to the transmission of a warning message of a electricity meter;
6 is an embodiment of an energy management device according to the present invention;
7 is a specific example of a terminal outlet;
8 is a specific example of a power meter,
9 is an embodiment of an energy management method according to the present invention.

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

Referring to FIG. 1, a power line 12 supplying electric energy from a power company 11 is introduced into each power customer such as a home, an office, a company, and a factory.

The power consumer 10 includes various types of loads 15-1 to 15- operated using electric energy supplied through the power line 12 such as a TV receiver, a refrigerator, an audio set, a cooler, a heater, an electric motor, and the like. n) is provided.

The energy management system according to the present invention comprises a power meter 21 coupled to a single power line 12 that enters the power consumer 10 and one or more terminal outlets 23.

The electricity meter 21 measures information on the electrical energy use of each load 15-1 to 15-n, for example, the total amount of power consumed by the power consumer 10.

The electricity meter 21 may be configured to have various structures and functions as necessary, and in particular, has a communication function with each terminal outlet 23. A specific example of the electricity meter 21 may be a smart meter.

Each terminal outlet 23 has a unique identification number and is connected to each of the loads 15-1 to 15-n in a one-to-one correspondence to measure the amount of power consumption of the individual loads connected thereto.

In addition, as shown in Figure 2, the terminal outlet 23 when the transmission time (S211), and transmits the power consumption information of the individual load connected to it to the electricity meter 21 (S212). At this time, the terminal outlet 23 transmits its own unique identification number.

The electricity meter 21 identifies a terminal outlet under its management through a unique identification number of each terminal outlet 23 and selectively receives power consumption information of an individual load transmitted by the terminal outlet under its own management. Can be.

To this end, the electricity meter 21 knows the unique identification number of the terminal outlet under its management, and this information may be preset in the electricity meter 21 or configured to be set by a user.

When the terminal outlet 23 to transmit power consumption information of the individual load may be configured in various ways. For example, each terminal outlet 23 may periodically transmit power consumption information of individual loads, or may transmit power consumption information of individual loads at the request of the electricity meter 21.

The power consumption information transmitted by each terminal outlet 23 may be instantaneous power consumption or may be accumulated for a specific period of time.

Power consumption information of individual loads transmitted by each terminal outlet should be measured at the same time or period.

For example, in the example of transmitting instantaneous power consumption information, all terminal outlets should transmit measured power consumption information at the same time point (for example, every day at 06 and 18 o'clock every day), and transmit power consumption information accumulated for a specific period of time. In this case, all terminal outlets must transmit accumulated power consumption information for the same period (eg, January 1, 2010 to 12:00).

Each terminal outlet 23 transmits power consumption information of individual loads using wired or wireless various communication schemes.

For example, each terminal outlet 23 may transmit power consumption information of an individual load by using a power line communication (PLC) or Zigbee communication method.

On the other hand, the electricity meter 21 receives the power consumption information of the individual loads transmitted by each terminal outlet 23, and compares the sum of the power consumptions of the individual loads with the total power consumption information measured by itself to generate a challenge or a short circuit. Find out.

The total power consumption refers to the amount of power consumed by the electricity meter 21 at the position where the power line 12 enters the power consumer 10. The total power consumption is theoretically the sum of the power consumption of the individual loads in the power consumer 10. Must match.

Since the electricity meter 21 compares the total power consumption measured by itself with the sum of the power consumptions of the individual loads to determine whether a challenge or a short circuit occurs, the power meter 21 also measures the total power consumption in each terminal outlet. Should be equal to (23).

Referring to the above example, if the power consumption information is used to determine whether a challenge or a short circuit occurs, the total power consumption at the same time as each terminal outlet 23 (for example, 06 and 18 o'clock every day). If it is necessary to measure and use the power consumption information accumulated during a certain period to determine whether a challenge or a short circuit occurs, it is accumulated during the same period as each terminal outlet 23 (for example, from 12:00 am to January 1, 2010). Power consumption information should be used.

Referring to FIG. 3, a method of determining whether the electricity meter 21 generates a conductive or short circuit will be described in detail.

First, the power meter 21 calculates a difference value between the sum of power consumptions of the individual loads received from each terminal outlet 23 and the total power consumption measured by the power supply (S231).

If the difference value is 'Q (diff)', Q (diff) may be calculated as in Equation 1 below.

Here, Q (total) is the total power consumption measured by the electricity meter 21 by itself, Q (i) is the power consumption of the load i measured and transmitted by the terminal outlet connected to the load i, and n is the number of each terminal outlet.

When Q (diff) is calculated as described above, the electricity meter 21 checks whether Q (diff) is greater than or equal to a preset threshold value (S232).

As illustrated in FIG. 4, when the Q (diff) is greater than or equal to the threshold value, the electricity meter 21 determines that a state of conduction or a short circuit has occurred (S233).

The threshold value can be set in various ways as needed. In particular, it is preferable to set the limit value in consideration of measurement errors that may occur even under normal circumstances when the power meter 21 and each terminal outlet 23 measure power consumption.

This limit value may be preset in the electricity meter 21 or may be configured to be set by the user.

In the latter example, the electricity meter 21 may provide a user interface (UI) for allowing a user to set a limit value, or may receive a limit value set by the user from another device.

On the other hand, the electricity meter 21 may notify a user by transmitting a warning message to the display device when it is determined that a challenge or a short circuit occurs.

The display device is a device capable of receiving a warning message transmitted from the electricity meter 21 and displaying it on the screen or generating an alarm. An example thereof is an IHD (In Home Display) provided in a home to display various information related to energy usage. ) Device. In addition, various devices such as a personal computer (PC), a TV receiver, a mobile communication terminal such as a mobile phone, and the like may serve as a display device.

As shown in FIG. 5A, the electricity meter 21 may directly transmit a warning message indicating a challenge / leakage state to the display device 17, or as shown in FIG. 5B, through the separate transmission device 25. Can also be transmitted.

Here, the transmission device 25 refers to a device capable of transmitting a warning message to the display device 17 according to the request of the electricity meter 21.

The power meter 21 in FIG. 5A or the transmitter 25 in FIG. 5B may transmit a warning message using various communication interfaces such as power line communication, Zigbee communication, and code division multiple access (CDMA) communication using a mobile communication network. .

In addition, the electricity meter 21 may be configured to classify the severity of the challenge or the leakage by using information such as the number of occurrences of the challenge or the leakage and the duration thereof, and determine whether to transmit a warning message accordingly.

For example, a warning message may be transmitted when the number of occurrences of a challenge or an earth leakage situation is greater than or equal to a preset reference value, or a warning message may be transmitted when the challenge or earth leakage situation lasts more than a predetermined reference time.

In addition, a warning message may be transmitted by dividing a warning level according to the number of times a challenge or a short circuit occurs and its duration. In other words, the greater the severity of a challenge or a short circuit, the more powerful a warning message can be sent to alert the user to a level appropriate to the current situation.

Referring to FIG. 6, the energy management apparatus 20 according to the present invention includes a power meter 21 coupled to a single power line 12 introduced into the power consumer 10, and one or more terminal outlets 23. Is done.

Since the electricity meter 21 and the terminal outlet 23 perform the same role as the energy management system described above, a detailed description thereof will be omitted and only the points will be described.

The electricity meter 21 measures the total power consumption of the power consumer 10 and has a communication function with each terminal outlet 23. Specific examples of such a power meter 21 may be a smart meter.

Terminal outlet 23 has a unique identification number, is connected to each load (15-1 ~ 15-n) in one-to-one correspondence, and measure the power consumption of the individual load connected to it by the electricity meter 21 with a unique identification number To send.

The electricity meter 21 identifies the terminal outlet under its own management using a unique identification number, and selectively receives power consumption information of the individual load transmitted by the terminal outlet under its own management.

When to allow each terminal outlet 23 to transmit power consumption information of the individual load can be configured in various ways as needed. For example, each terminal outlet 23 may periodically transmit power consumption information of individual loads, or may transmit power consumption information of individual loads at the request of the electricity meter 21.

The power consumption information transmitted by each terminal outlet 23 may be instantaneous power consumption or may be accumulated for a specific period of time. Power consumption information transmitted by each terminal outlet 23 should be measured at the same time or period.

Each terminal outlet may transmit power consumption information of an individual load using various wired or wireless communication methods such as power line communication (PLC) or Zigbee communication.

The electricity meter 21 receives power consumption information of individual loads transmitted from each terminal outlet 23, compares the sum of the power consumptions of the individual loads with the total power consumption measured by itself, and the difference is a preset threshold value. Based on the degree of deviation, determine whether there is a challenge or a short circuit.

For this reason, the time reference for the electricity meter 21 to measure the total power consumption should be the same as that of each terminal outlet 23.

The threshold value is preferably set in consideration of measurement errors that may appear when the power meter 21 and the terminal outlet 23 measure power consumption.

The electricity meter 21 may be configured to transmit a warning message to the display device when it is determined that a challenge or a short circuit occurs.

As described with reference to FIG. 5, the electricity meter 21 may perform a function of transmitting a warning message to the display device 17 by itself, or in conjunction with a separate transmission device 25, a corresponding transmission device 25. Alert messages can also be sent via.

In addition, the electricity meter 21 may be configured to classify the severity of the challenge or the leakage by using information such as the number of occurrences of the challenge or the leakage and the duration thereof, and determine whether to transmit a warning message accordingly.

In addition, a warning message may be transmitted by dividing a warning level according to the number of times a challenge or a short circuit occurs and its duration. In other words, the greater the severity of a challenge or a short circuit, the more powerful a warning message can be sent to alert the user to a level appropriate to the current situation.

Referring to FIG. 7, a specific embodiment of the terminal outlet 23 constituting the energy management system and the energy management device will be described.

The terminal outlet 23 may include a metering unit 23-1, a communication unit 23-2, a memory 23-3, and a processor 23-4.

The metering unit 23-1 performs the role of measuring the power consumption of the individual load connected thereto, and the communication unit 23-2 performs the role of transmitting the power consumption information of the individual load to the electricity meter 21.

The communication unit 23-2 may transmit power consumption information of an individual load by using various communication methods such as a power line communication method (PLC) or a Zigbee communication method.

In the memory 23-3, a driving program and driving information necessary for driving the terminal outlet 23 are stored and maintained, and a unique identification number of the terminal outlet is stored.

The processor 23-4 operates according to a driving program of the memory 23-3 to collectively control the terminal outlet 23, and may be configured using a microprocessor or a central processing unit (CPU). Can be.

In particular, the processor 23-4 transmits power consumption information of the individual loads measured by the metering unit 23-1 together with the unique identification number to the power meter 21 through the communication unit 23-2. As described above, the transmission may be performed periodically at a predetermined time point or at the request of the electricity meter 21.

Referring to FIG. 8, a specific embodiment of the electricity meter 21 constituting the energy management system and the energy management apparatus will be described.

The electricity meter 21 includes a meter 21-1, a communication unit 21-2, an input unit 21-3, a display unit 21-4, a memory 21-5, a processor 21-6, and a transmission unit. (21-7).

The metering unit 21-1 measures the total amount of power consumed by the power line 12 drawn into the power consumer.

The communication unit 21-2 performs a role of receiving power consumption information of individual loads transmitted from each terminal outlet 23, and through various communication methods such as power line communication method (PLC) or Zigbee communication method. It may interface with the terminal outlet 23.

At this time, the communication unit 21-2 identifies the terminal outlet under its management by using the unique identification number stored in the memory 21-5, and selectively selects only the power consumption information of the individual load transmitted by the terminal outlet. To receive.

The input unit 21-3 allows a user to input a command or information regarding the operation of the electricity meter 21 in various ways such as a key button or a touch screen. The user 19 may input limit value information, a unique identification number of each terminal outlet, and the like, which are criteria for determining a challenge or a short circuit, through the input unit 21-3.

The display unit 21-4 visually displays various information related to the operation of the electricity meter 21 and a user interface (UI).

The memory 21-5 stores and maintains a driving program and driving information necessary for driving the electricity meter 21. In particular, in the memory 21-5, the energy management system and the energy management apparatus, such as the unique identification number of the terminal outlet managed by the electricity meter 21, limit value information which is a criterion for determination of a challenge or an electric leakage, according to the embodiments described above. Information is stored to enable operation.

The processor 21-6 operates according to a driving program of the memory 21-5 to collectively control the electricity meter 21, and may be configured using a microprocessor or a central processing unit (CPU). have.

In particular, the processor 21-6 is a sum of the power consumption of the individual loads received from each terminal outlet 23 through the communication unit 21-2, and the difference value between the total power consumption measured by the metering unit 21-1. Is calculated and the difference value is compared with the threshold value stored in the memory 21-5 to determine whether or not an electric shock or a short circuit has occurred.

The transmitter 21-7 transmits a warning message by using various wired / wireless communication methods such as a power line communication method, a Zigbee communication method, and a CDMA communication method. The role of the transmitter 21-7 may be integrally performed by the communication unit 21-2.

When it is determined that a challenge or a short circuit has occurred, the processor 21-6 may transmit a warning message to the display device 17 through the transmitter 21-7.

7 and 8 are only one embodiment for describing the electricity meter 21 and the terminal outlet 23, and the electricity meter 21 and the terminal outlet 23 may be variously configured as necessary.

9, an embodiment of an energy management method according to the present invention will be described.

There are various types of loads that operate using electric energy such as TV sets, refrigerators, audio sets, air conditioners, heaters, and electric motors, and a power meter 21 is coupled to a single power line that enters the power consumers. Each load has a terminal outlet 23 having a unique identification number.

Each terminal outlet 23 measures the power consumption of the individual load connected thereto (S251), and transmits the power consumption information of the measured individual load to the power meter together with its own identification number (S252).

The power consumption information measured by each terminal outlet 23 in step S251 may be instantaneous power consumption or may be accumulated for a specific period of time. In particular, the power consumption information transmitted by each terminal outlet 23 should be measured at the same time or period.

Each terminal outlet 23 may transmit power consumption information of an individual load through various wired or wireless communication methods.

For example, each terminal outlet 23 may transmit power consumption information of an individual load using a power line communication (PLC) or Zigbee communication method.

When to allow each terminal outlet 23 to transmit power consumption information of the individual load can be configured in various ways as needed. As a specific example, the transmission may be performed periodically or at the request of the electricity meter.

The electricity meter 21 receives power consumption information of individual loads transmitted from each terminal outlet 23 through step S252 (S253).

In step S253, the electricity meter 21 may selectively receive power consumption information transmitted from the terminal outlet under its management by using a unique identification number of each terminal outlet 23. In this regard, the unique identification number of each terminal outlet managed by the electricity meter 21 may be preset in the electricity meter 21 or may be configured to be set by the user.

On the other hand, the electricity meter 21 measures the total power consumption of the power consumer in a single power line introduced into the power customer, and compares with the sum of the power consumption of the individual load received from each terminal outlet 23 through step S252. (S254).

Theoretically, the total power consumption measured by the electricity meter 21 by itself should match the sum of the power consumptions of the individual loads in the power consumer. However, in practice, some measurement errors may occur even under normal circumstances.

Now, the electricity meter 21 determines that the difference between the sum of the power consumption amounts of the individual loads and the total power consumption amount is less than the preset limit as a result of the comparison in step S254 (S255 and S255-1). However, if the difference between the sum of the power consumptions of the individual loads and the total power consumption is greater than or equal to the preset limit value, it is determined that a challenge or a short circuit occurs (S255, S256).

The threshold value may be variously set as necessary, and in particular, it is preferable to set the limit value in consideration of errors that may occur even under normal circumstances when the power meter 21 and each terminal outlet 23 measure power consumption.

This limit value may be preset in the electricity meter 21 or may be configured to be set by the user.

In the latter example, the electricity meter 21 may provide a user interface (UI) for allowing a user to set a limit value, or may receive limit value information set by the user from another device.

When it is determined that a challenge or a short circuit has occurred, the electricity meter 21 may transmit a warning message to the display device 17 (S257), and the display device 17 receives the warning message and displays it on the screen or generates an alarm ( S258).

An example of the display device 17 is an IHD (In Home Display) device provided in a home and displaying information related to energy use. In addition, various devices such as a personal computer (PC), a TV receiver, and a mobile communication terminal such as a mobile phone may serve as a display device.

In this case, as described with reference to FIG. 5, the electricity meter 21 may directly transmit a warning message to the display device 17, or a separate transmission device 25 that performs a function of transmitting a warning message to the display device 17. In conjunction with and may transmit a warning message through the corresponding transmission device (25).

In addition, the electricity meter 21 may be configured to classify the severity of the challenge or the leakage by using information such as the number of occurrences of the challenge or the leakage and the duration thereof, and determine whether to transmit a warning message accordingly.

For example, a warning message may be transmitted when the number of occurrences of a challenge or an earth leakage situation is greater than or equal to a preset reference value, or a warning message may be transmitted when the challenge or earth leakage situation lasts more than a predetermined reference time.

In addition, a warning message may be transmitted by dividing a warning level according to the number of times a challenge or a short circuit occurs and its duration. In other words, the greater the severity of a challenge or a short circuit, the more powerful a warning message can be sent to alert the user to a level appropriate to the current situation.

It is to be understood that the present invention is not limited to the above-described embodiment, and various changes and modifications may be made by those skilled in the art without departing from the technical spirit of the present invention. to be.

10: power consumer 12: power line
17: display device 20: energy management device
21: power meter 21-1: metering unit
21-2: communication unit 21-3: input unit
21-4: Display 21-5: Memory
21-6: Processor 21-7: Transmitter
23: terminal outlet 23-1: metering unit
23-2: communication unit 23-3: memory
23-4: Processor 25: Transmitter
15-1 to 15-n: load

Claims (24)

In the energy management system,
At least one terminal outlet having a unique identification number and measuring and transmitting power consumption of an individual load connected thereto; And
It includes a power meter coupled to a single power line for supplying power to each terminal outlet,
The electricity meter receives power consumption information of the individual loads transmitted by the respective terminal outlets, compares the sum of the power consumptions of the individual loads with the total power consumption measured by the respective loads, and the degree of the difference is outside the preset limit value. Energy management system, characterized in that to determine whether or not based on a short circuit. The method of claim 1,
The terminal outlet transmits power consumption information of the individual loads using a power line communication method (PLC). The method of claim 1,
The terminal outlet transmits power consumption information of the individual load by using a Zigbee communication method. The method of claim 1,
The threshold value includes at least the energy consumption measurement error of the electricity meter and the terminal outlet. The method of claim 1,
The energy meter is configured to allow the user to set the threshold value. The method of claim 1,
The energy meter transmits a warning message to a display device when it is determined that a challenge or a short circuit has occurred. The method according to claim 6,
The display device includes an energy management system, characterized in that including an IHD (In Home Display) device. The method according to claim 6,
The energy meter determines whether to transmit a warning message based on one or more of the number of occurrences of a challenge or a short circuit and its duration. In the energy management apparatus,
At least one terminal outlet having a unique identification number and measuring and transmitting power consumption of an individual load connected thereto; And
It includes a power meter coupled to a single power line for supplying power to each terminal outlet,
The electricity meter receives power consumption information of the individual loads transmitted by the respective terminal outlets, compares the sum of the power consumptions of the individual loads with the total power consumption measured by the respective loads, and the degree of the difference is outside the preset limit value. Energy management device, characterized in that to determine whether or not based on a short circuit. The method of claim 9,
The terminal outlet transmits power consumption information of the individual loads using a power line communication method (PLC). The method of claim 9,
The terminal outlet transmits power consumption information of the individual load by using a Zigbee communication method. The method of claim 9,
The threshold value includes at least the energy consumption measurement error of the electricity meter and the terminal outlet. The method of claim 9,
The energy meter is configured to allow the user to set the threshold value. The method of claim 9,
The energy meter transmits a warning message to a display device when it is determined that a challenge or a short circuit has occurred. The method of claim 14,
The display device includes an energy management device comprising an IHD (In Home Display) device. The method of claim 14,
The energy meter determines whether to transmit a warning message based on one or more of the number of occurrences of a challenge or a short circuit and a duration thereof. In the energy management method,
A terminal power measurement step of measuring at least one terminal outlet having a unique identification number, the power consumption of an individual load connected thereto;
A transmission step of each terminal outlet transmitting power consumption information of the measured individual loads to a power meter;
A reception step of receiving, by the electricity meter, power consumption information of an individual load transmitted from each terminal outlet;
A comparison step of the electricity meter comparing the sum of the power consumption of each individual load with the total power consumption measured by the electricity meter; And
And determining, by the electricity meter, whether the difference between the sum of the power consumption of each individual load and the total power consumption measured by the power meter is out of a preset limit value or not, based on a degree of challenge or a short circuit. The method of claim 17,
The terminal outlet transmits power consumption information of the individual loads using a power line communication method (PLC). The method of claim 17,
The terminal outlet transmits power consumption information of the individual loads using a Zigbee communication method. The method of claim 17,
The threshold value includes at least an error in measuring power consumption of the electricity meter and the terminal outlet. The method of claim 17,
The energy meter is configured to allow the user to set the threshold value. The method of claim 17,
If the electricity meter is determined that a challenge or a short circuit has occurred, the energy management method, characterized in that for transmitting a warning message to the display device. The method of claim 22,
The display device includes an energy management method comprising an IHD (In Home Display) device. The method of claim 22,
And the electricity meter determines whether to transmit a warning message based on at least one of the number of occurrences of a challenge or a short circuit and a duration thereof.

Images