KR101487735B1 - Identification system for home appliance using inrush current and identification method therefor - Google Patents

Abstract

The present invention relates to a home appliance identifying system using inrush current which can identify a working home appliance among home appliances connected to a standby power cutting-off controller, and to an identifying method therefor. The home appliance identifying system using inrush current according to an embodiment of the present invention comprises: a detection part detecting current and voltage of a home appliance; and an identification part identifying a working home appliance by using inrush current information out of current information detected from the detection part.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a home appliance identification system using an inrush current,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a home electric appliance identification system using an inrush current and an identification method thereof.

Smart standby power cut-off controller (smart plug, smart outlet, smart switch, etc.) supplies power to household appliances. In standby power mode, which does not use home appliances, It is a device with a function to block. The existing smart standby power cutoff controller has only a function to supply power to the connected loads (household appliances) or shut off the standby power, and no technology that can grasp the characteristics of the loads is implemented.

As the technology of energy saving devices has been developed and the demand for user convenience has increased, there has been a tendency to automate the control for the standby power cutoff and the power saving of the home appliances. For this purpose, the characteristics of the load connected to the smart standby power cutoff controller A request to manage it together with the location information of the power network occurs.

An object of the present invention is to solve the technical problems described above, and it is an object of the present invention to provide a method and apparatus for identifying an active appliance among connected home appliances by using the inrush current characteristic peculiar to each home appliance It is an object of the present invention to provide a home electric appliance identification system using an inrush current and an identification method thereof.

According to a preferred embodiment of the present invention, there is provided a household appliance identification system using an inrush current, comprising: a detector for detecting a current and a voltage of a home appliance; And an identification unit for identifying the appliance in operation using the inrush current information among the current information detected by the detection unit.

Specifically, the identification unit may include a discriminator for discriminating an active appliance from an in-operation appliance through comparison with stored inrush current information; And a normalizer for normalizing the inrush current information among the current information detected by the detecting unit using the inrush voltage information among the voltage information detected from the detecting unit. It is preferable that the discriminator discriminates the appliance in operation by comparing the normalized rush current information with the stored rush current information.

If it is determined that there is no stored inrush current corresponding to the normalized inrush current as a result of the comparison, the discriminator may receive the corresponding home appliance information from the user and store the corresponding home appliance information and inrush current information. In addition, when the comparison result indicates that the stored rush current coincides with the normalized rush current, the discriminator determines that the household appliance corresponding to the stored rush current information is in operation.

In addition, the identification unit may include: a time interval between the peak value and the peak value in the standardized rush current information; A slope between a peak value and a peak value in the normalized rush current information; Or a time interval from a start point of the standardized rush current information to a peak value; Or the like.

According to a preferred embodiment of the present invention, there is provided a method of identifying a home appliance using an inrush current, comprising the steps of: (a) detecting a current and a voltage of the home appliance; And (b) identifying the appliances in operation using the inrush current information among the current information detected in the step (a). Specifically, the step (b) includes the steps of: (b-1) normalizing inrush current information among the current information detected in the step (a) using the rush voltage information among the voltage information detected in the step (a); And (b-2) comparing the inrush current information with the stored inrush current information.

The step (b-2) is characterized by comparing the normalized inrush current information with the stored inrush current information to discriminate the appliance in operation.

The step (b) may further include: (b-3) comparing the normalized inrush current information with the stored inrush current information, and when there is no stored inrush current corresponding to the normalized inrush current, And storing the new home appliance information and the inrush current information on the basis of the appliance information. In the step (b-2), when there is a current corresponding to the normalized inrush current as a result of the comparison between the normalized rush current information and the stored rush current information, It is preferable to determine that the device is in operation.

The step (b) may further include: a time interval between a peak value and a peak value in the standardized rush current information; A slope between a peak value and a peak value in the normalized rush current information; Or a time interval from a start point of the standardized rush current information to a peak value; Or the like.

 According to the household appliance identification system and the identification method of the present invention, by using the inrush current characteristic peculiar to each home appliance, it can be seen that the home appliance among the home appliances connected in the standby power cutoff controller can be identified.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram and a peripheral configuration diagram of a household electrical appliance identification system using an inrush current according to a preferred embodiment of the present invention; FIG.
Fig. 2 is an illustration of an inrush current waveform of a household appliance. Fig.
3 is a flowchart of a method of identifying a home appliance using an inrush current according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an in-home appliance identification system using an inrush current and an identification method thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

It should be understood that the following embodiments of the present invention are only for embodying the present invention and do not limit or limit the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Inrush current is a phenomenon in which a large amount of current flows momentarily when the power switch of the apparatus is turned on for the first time. That is, when power is applied to the device, a large amount of current flows instantaneously to charge the capacitor. This current is called an inrush current, and each device has a unique inrush current characteristic.

First, FIG. 1 shows a configuration diagram and a peripheral configuration diagram of a household electrical appliance identification system 100 using an inrush current according to a preferred embodiment of the present invention.

The home electric apparatus identification system 100 of the present invention can be configured as a part of the smart standby power cut-off controller SC, as can be seen from Fig. The smart standby power cut-off controller SC is a standby power cut-off controller which is connected between the home appliance HA and the power supply voltage and the gateway GW so that the home appliance HA can be controlled by using the gateway GW Function. Examples of products include smart plugs, smart outlets and smart switches.

1, the in-home appliance identification system 100 using an inrush current according to a preferred embodiment of the present invention includes a detection unit 10 for detecting the current and voltage of the home appliance HA, And an identification unit (20) and a display unit (30) for identifying the home appliance (HA) in operation using the inrush current information among the current information detected from the current detection unit (10).

The detection unit 10 of the present invention includes a current sensor 11, a voltage sensor 12, and a current / voltage waveform processor 13.

The current sensor 11 and the voltage sensor 12 serve to detect the current and voltage of the home appliance HA, respectively. The current / voltage waveform processor 13 processes the current and voltage of the home appliance HA detected by the current sensor 11 and the voltage sensor 12 to calculate the waveform of the current and the voltage.

The identification unit 20 of the present invention includes a standardizer 21 and a discriminator 22.

The normalizer 21 standardizes the inrush current information among the current information detected by the detecting unit 10 by using the voltage information detected from the detecting unit 10 and / or the reference voltage information of the stored inrush current information. In other words, there may be a deviation in the case where the maximum value of the power supply voltage input to the home appliance HA is higher or lower than 311 V, which is the supply voltage, depending on the region, etc., The present invention performs the processing by the standardizer 21 to standardize the current value by assuming that the maximum value of the power supply voltage is 311 V which is a voltage value intended to be supplied.

The discriminator 22 serves to discriminate an active household appliance (HA) using inrush current information stored in the first storage part Mem1 and / or the second storage part Mem2, and the smart smart standby power May be implemented using a microprocessor (uP) prepared in the shutdown controller (SC). The discriminator 22 of the present invention compares the normalized rush current information with the stored rush current information to determine the home appliance HA in operation. The inrush current may be stored in the first storage unit Mem1 provided in the smart standby power cut-off controller SC, but may be stored in the wake-up or wireless communication by a communication unit (not shown) To the gateway GW and use the second storage unit Mem2 in the gateway GW.

When the comparison result between the normalized rush current information and the stored rush current information indicates that there is no stored rush current corresponding to the normalized rush current, the discriminator 22 receives the corresponding home appliance (HA) information from the user, (HA) information and inrush current information to the first storage unit (Mem1) and / or the second storage unit (Mem2). At this time, the display unit 30 indicates that there is no stored inrush current corresponding to the normalized inrush current.

When the comparison result shows that there is a stored inrush current corresponding to the normalized inrush current as a result of the comparison, the discriminator 22 determines that the home appliance HA corresponding to the stored inrush current information is operating, Is displayed using the display unit 30, and information is shared with other devices such as a gateway (GW) linked by wire or wireless communication by a communication unit (not shown).

2 shows an example of the inrush current waveform of the home electric appliance HA.

As can be seen from Fig. 2, the inrush current waveform varies depending on the respective home appliances HA, the time interval between the peak value and the peak value, the slope between the peak value and the peak value, And the time interval until the time is different.

Therefore, the discriminator 22 of the present invention can determine the time intervals t1 (1), t1 (2), t1 (3) between the peak value and the peak value in the standardized rush current information; The slope (t2 (1), t2 (2), t2 (3)) between the peak value and the peak value in the standardized inrush current information; Or time intervals t3 (1), t3 (2), t3 (3) from the starting point of the normalized inrush current information to the peak value; It is possible to identify the home appliance (HA) in operation.

The time interval t1 (1), t1 (2), t1 (3) between the peak value and the peak value in the standardized rush current information is the time interval t1 (1) between the first peak value and the second peak value, ), A time interval t1 (3) between the first peak value and the third peak value, or a time interval t1 (3) between the second peak value and the third peak value. The slopes t2 (1), t2 (2), t2 (3) between the peak value and the peak value in the standardized rush current information are obtained by subtracting the slope t2 (1) between the first peak value and the second peak value ), A slope t2 (3) between the first peak value and the third peak value, or a slope t2 (3) between the second peak value and the third peak value. The time intervals t3 (1), t3 (2), t3 (3)) from the start time point to the peak value of the standardized rush current information are set to the time interval t3 A time interval t3 (3) up to the second peak value, or a time interval t3 (3) up to the third peak value.

The memory capacity occupied by the information of the inrush current waveform stored in the first storage unit Mem1 and / or the second storage unit Mem2 can be minimized by the function of the identification unit 20 as described above, There is also an effect of reducing the amount of information and the time to compare and / or process.

The operation of the home appliance identification system 100 using the inrush current according to a preferred embodiment of the present invention will be summarized.

First, when the Smart Standby power cut-off controller SC is connected to the AC power outlet, the relay (Relay, RL) is turned on and power is supplied to the home appliance HA. The inrush current and voltage waveform generated when the power is applied are collected by the current sensor 11 and the voltage sensor 12 and sent to the voltage sensor 12 and the current / voltage waveform processor 13. The voltage sensor 12 and the current / voltage waveform processor 13 send inrush current and voltage waveform information to the identification unit 20 and the identification unit 20 receives the waveform sent from the current / voltage waveform processor 13 and the first storage Analyzes and processes the waveforms stored in the first part (Mem1), and sends the information to the gateway (GW). When an error detecting light emitting device (LED) is used as an example of the display unit 30, the collected waveform is flickered when there is no waveform in the waveform stored in the first storage unit Mem1. When the configuration of the first storage unit Mem1 of the smart standby power cut-off controller SC is not available, the identification unit 20 sends information to the gateway GW using wired / wireless communication, Can analyze, analyze and process the waveforms stored in the memory.

In addition, by sharing information on the HA device in operation, it is possible to easily determine whether or not the various home appliances HA arranged in the living room, the kitchen, and the room are operated in one system. Here, the sharing may be an example in which the user browses the information or transmits information to the gateway GW so that the smart standby power cut-off controller SC can control the standby power cutoff using the information.

3 is a flowchart illustrating a method of identifying a home appliance using an inrush current according to a preferred embodiment of the present invention.

As can be seen from FIG. 3, the method of identifying a home appliance using an inrush current according to a preferred embodiment of the present invention includes a step of connecting a smart standby power cut-off controller SC to an outlet, (S20) of checking whether the power-off controller (SC) is booted or not (S30) and confirming whether or not the home appliance (HA) is connected to the smart standby power cut-off controller (SC).

If it is determined in step S30 that the home appliance HA is connected to the smart standby power cut-off controller SC, the relay RL is turned on in step S40. If the detector 10 determines the current and voltage of the home appliance HA (S50) of identifying the current home appliances (HA) in operation using the inrush current information among the current information detected in the step S50 (S60).

In operation S60, the inrush current information among the current information detected in operation S50 is standardized (S61) using the voltage information detected in operation S50 and / or the reference voltage information of the stored inrush current information. And a step S62 of discriminating the home appliances HA in operation.

Specifically, in step S62, when there is a stored inrush current corresponding to the normalized inrush current as a result of the comparison between the normalized inrush current information and the stored inrush current information (S621 and S621), the stored inrush current information (S622) that the home appliance (HA) corresponding to the home appliance (HA) is operating.

In the case where there is no stored inrush current corresponding to the normalized inrush current as a result of the comparison in the step S621, the home appliance identification method using the inrush current of the present invention receives the home appliance (HA) And storing the home appliance (HA) information and inrush current information (S63).

Specifically, step S63 includes a step S631 of indicating that there is no stored inrush current coinciding with the normalized inrush current using the display unit 30, a step S632 of transmitting no matching information to the gateway GW, (S633) of receiving information of the home appliance (HA) from the user, and storing the inrush current waveform information of the home appliance (HA) in the first storage (Mem1) and / or the second storage (Mem2) (Step S634).

After step S62 and step S63, it is preferable that the household appliance identification method using the inrush current of the present invention further includes a step (S70) of sharing the identified or newly stored home appliance (HA) information. Here, the sharing may be an example in which the user browses the information or transmits information to the gateway GW so that the smart standby power cut-off controller SC can control the standby power cutoff using the information. Such sharing enables easy discrimination of the operation of various home appliances (HA) arranged in places such as a living room, a kitchen, and a guest room in a single system.

In step S60, the time intervals t1 (1), t1 (2), t1 (3) between the peak value and the peak value in the standardized rush current information; The slope (t2 (1), t2 (2), t2 (3)) between the peak value and the peak value in the standardized inrush current information; Or time intervals t3 (1), t3 (2), t3 (3) from the starting point of the normalized inrush current information to the peak value; It is possible to identify the home appliance (HA) in operation.

The time interval t1 (1), t1 (2), t1 (3) between the peak value and the peak value in the standardized rush current information is the time interval t1 (1) between the first peak value and the second peak value, ), A time interval t1 (3) between the first peak value and the third peak value, or a time interval t1 (3) between the second peak value and the third peak value. The slopes t2 (1), t2 (2), t2 (3) between the peak value and the peak value in the standardized rush current information are obtained by subtracting the slope t2 (1) between the first peak value and the second peak value ), A slope t2 (3) between the first peak value and the third peak value, or a slope t2 (3) between the second peak value and the third peak value. The time intervals t3 (1), t3 (2), t3 (3)) from the start time point to the peak value of the standardized rush current information are set to the time interval t3 A time interval t3 (3) up to the second peak value, or a time interval t3 (3) up to the third peak value.

As described above, according to the home electric apparatus identification system 100 of the present invention and the identification method thereof, by using the inrush current characteristic peculiar to each home appliance HA, among the home appliances HA connected in the standby power cutoff controller, It is possible to identify the home appliance (HA).

100: Home Appliance Identification System
10:
11: current sensor 12: voltage sensor
13: Current / voltage waveform processor
20:
21: Standardizer 22: Discriminator
30:
SC: smart standby power cut-off controller uP: microprocessor
RL: Relay AC Supply: AC power
AC-DC: AC-DC converter GW: Gateway
HA: Home appliance
Mem1: First storage unit Mem2: Second storage unit

Claims (14)

A detector for detecting a current and a voltage of the household appliance; And
And an identification unit for identifying the appliance in operation using the inrush current information among the current information detected from the detection unit,
Wherein,
And a normalizer for normalizing inrush current information among the current information detected by the detecting unit using voltage information detected by the detecting unit,
Wherein,
A time interval between the peak value and the peak value in the normalized rush current information;
A slope between a peak value and a peak value in the normalized rush current information; And
And a time interval from a start time point of the standardized rush current information to a peak value is used as the inrush current information. The method according to claim 1,
Wherein,
Further comprising a discriminator for discriminating an active appliance from an inrush current by comparing the normalized inrush current information with previously stored inrush current information. delete delete 3. The method of claim 2,
The discriminator includes:
Wherein when the inrush current corresponding to the normalized inrush current is not present as a result of the comparison, the home appliance information and the inrush current information are newly stored by receiving the home appliance information from the user, Home appliance identification system. 3. The method of claim 2,
The discriminator includes:
And if it is determined that there is a rush current corresponding to the normalized rush current, it is determined that the rush current information corresponding to the stored rush current information is in operation. delete (a) detecting a current and a voltage of a home appliance; And
(b) identifying the appliances in operation using the inrush current information among the current information detected in the step (a)
The step (b)
(b-1) standardizing the inrush current information among the current information detected in the step (a) by using the voltage information detected in the step (a); And
(b-2) comparing the normalized inrush current information with previously stored inrush current information to identify an active appliance in operation,
The step (b)
A time interval between the peak value and the peak value in the normalized rush current information;
A slope between a peak value and a peak value in the normalized rush current information; And
And a time interval from a start point of the standardized rush current information to a peak value is used. delete delete delete 9. The method of claim 8,
The step (b)
(b-3) if there is no stored inrush current corresponding to the normalized inrush current as a result of comparison between the normalized inrush current information and the previously stored inrush current information, Further comprising the step of storing the in-home appliance information and the inrush current information. 9. The method of claim 8,
The step (b-2)
And determines that the household appliance corresponding to the stored inrush current information is in operation when there is a current corresponding to the normalized inrush current as a result of comparison between the normalized inrush current information and the previously stored inrush current information A method of identifying a household appliance using an inrush current. delete

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