KR101242165B1 - Adaptation type standby power block control system - Google Patents

Abstract

PURPOSE: An adaptive standby power cut-off control system is provided to cut off the standby power by automatically detecting standby power consumed due to connection of a power plug of an office appliance or a home appliance. CONSTITUTION: A smart plug(100) wirelessly transmits monitoring status information of an office appliance or a home appliance to a portable power monitoring access point(200). The portable power monitoring access point displays the received monitoring status information. A vision sensor(300) photographs a video. If human body activity information is detected by a photographed video, the vision sensor wirelessly transmits a smart plug activation signal to the smart plug and the portable power monitoring access point.

Description

Adaptive standby power block control system

The present invention relates to an adaptive standby power cutoff control system, and more particularly, to monitor and cut off standby power adaptively by a learning function of different standby power consumed by home appliances and office equipment to reduce power consumption. The present invention relates to an adaptive standby power cutoff control system.

The conventional standby power control technology uses a method of controlling the standby power by using a method of calculating or storing the power or current value consumed in the standby state in advance and confirming whether it is larger or smaller than this value.

That is, as a background technology, a device and a method for reducing standby power are disclosed in Korean Patent Registration No. 1011383 (2011.01.28), and a power saving outlet and a method of operating the same are disclosed in Korean Patent Publication No. 2010-0067744 (2010.06.22). The present invention discloses a standby power blocking power strip using a Korean Patent Registration No. 0912004 (2009.08.14) and a standby power blocking method using a power strip.

The above-described background technologies set or measure a standby power value for each type of device or each time a different standby power value is used for each office device or home appliance, which is inefficient and inconvenient in terms of users.

In addition, when there is a mismatch between the preset standby power value and the standby power value of the connected device, the standby power is not cut off and thus there is a case in which there is no power saving effect.

In addition, as a means of returning from the standby mode to the active mode, a manual button operation or a method of controlling by using an IR remote controller has been widely used as a related art, but this method has to provide inconvenience to the user.

Korea Patent Registration No. 1011383 (2011.01.28) Korean Patent Publication No. 2010-0067744 (2010.06.22) Korean Patent Registration No. 0912004 (2009.08.14)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

An object of the present invention is to apply the adaptive standby power monitoring function using the standby power learning function of idle mode, active mode, standby mode to automatically detect and set different standby power for each office equipment or home appliance, By increasing the convenience and adaptively setting the standby power value, a reliable standby power blocking function is provided to provide energy efficiency and savings.

Another object of the present invention is to configure a manual button unit for switching the standby mode state of the smart plug into the active mode state in the portable power monitoring access point to enable manual setting in addition to automatic setting.

Still another object of the present invention is to connect a portable power monitoring access point and a computer terminal so that power consumption monitoring, standby power monitoring, and overcurrent monitoring status can be checked through a computer terminal.

In order to achieve the object of the present invention,

Adaptive standby power cutoff control system according to an embodiment of the present invention,

A smart plug 100 that wirelessly transmits monitoring status information to a portable power monitoring access point by monitoring power consumption monitoring, standby power monitoring and overcurrent;

A portable power monitoring access point 200 which wirelessly communicates with the smart plug to receive and display power consumption information, standby power and monitoring state information, overcurrent and monitoring state information from the smart plug;

And a vision sensor 300 for wirelessly transmitting a smart plug activation signal to the smart plug and the portable power monitoring access point when the human body activity information is detected by processing the captured video signal while photographing a video. To solve the problem.

Adaptive standby power cutoff control system according to the present invention,

The nation's economic losses can be prevented by automatically detecting and shutting off standby power consumption (estimated at KRW 500 billion per year) due to the absence of power plugs for office equipment or home appliances.

In addition, by setting or measuring a standby power value that is different for each type of device or every time a different standby power value is used for each office device or home appliance, the three-mode standby power learning function is solved by improving the inefficient and inconvenient disadvantage in terms of users. By applying this to automatically detect the different standby power for each office equipment or home appliances to be automatically set to provide an effect to increase the convenience to the user.

In addition, when the standby power value is inconsistent with the preset standby power value and the standby power value of the connected device, there is a case in which the standby power is not cut off and thus there is no power saving effect. By providing reliable standby power blocking technology, it provides a better effect to maximize the efficiency and savings of energy consumption.

In addition, by connecting the portable power monitoring access point and the computer terminal, the power consumption monitoring, standby power monitoring and overcurrent monitoring status can be confirmed through the computer terminal.

1 is an overall configuration diagram of an adaptive standby power cutoff control system according to an embodiment of the present invention.
2 is a smart plug block diagram of an adaptive standby power cutoff control system according to an embodiment of the present invention.
3 is an external perspective view of the smart plug of the adaptive standby power cutoff control system according to an embodiment of the present invention.
Figure 4 is a block diagram of the smart plug M U of the adaptive standby power cutoff control system according to an embodiment of the present invention.
5 is a flowchart illustrating an operation process of the smart plug MC of the adaptive standby power cutoff control system according to an embodiment of the present invention.
FIG. 6 is an exemplary diagram illustrating a learning-based adaptive standby power cutoff control algorithm of smart plug MC of the adaptive standby power cutoff control system according to an embodiment of the present invention.
7 is a block diagram of a portable power monitoring access point of an adaptive standby power cutoff control system according to an embodiment of the present invention.
8 is an external perspective view of a portable power monitoring access point of an adaptive standby power cutoff control system according to an embodiment of the present invention.
9 is a block diagram of a vision sensor of an adaptive standby power cutoff control system according to an embodiment of the present invention.

Adaptive standby power cutoff control system according to an embodiment of the present invention for achieving the above object,

In the standby power cutoff control system,

A smart plug 100 that wirelessly transmits monitoring status information to a portable power monitoring access point by monitoring power consumption monitoring, standby power monitoring and overcurrent;

A portable power monitoring access point 200 which wirelessly communicates with the smart plug to receive and display power consumption information, standby power and monitoring state information, overcurrent and monitoring state information from the smart plug;

And a vision sensor 300 for wirelessly transmitting a smart plug activation signal to the smart plug and the portable power monitoring access point when the human body activity information is detected by processing the captured video signal while photographing a video. It is done.

At this time, the smart plug 100,

AC / DC converter 110 for converting the supplied AC to DC,

A regulator 120 for converting the voltage converted by the AC / DC converter into 3.3V;

AC current sensor 130 for sensing the supplied AC current,

Power meter IC 140 for measuring Single-phase Active power (Watt) and Apparent power (VA) with reference to the current value detected from the AC current sensor, Irms, Vrms and signal period, and

A power relay 150 for receiving the standby power off control signal of the smart plug M U and providing an AC power switch function;

A wireless transceiver 160 for wireless communication with a portable power monitoring access point,

RCT 170 to generate a real-time clock to provide a smart plug MC euro,

The power consumption monitoring, standby power monitoring and over-current monitoring is characterized in that it comprises a smart plug M U 180 for controlling the signal flow for wireless transmission of the monitoring status information to the portable power monitoring access point.

At this time, the smart plug M C 180,

An initialization module 181 for performing device setting and initialization, internal process resource setting, memory initialization, and variable initialization;

A power consumption monitoring module 182 for converting power consumption using raw data measured from a power meter IC,

If the power consumption is higher than the overcurrent threshold (Threshold), the overcurrent monitoring module 183 for determining the overcurrent to send an off signal to the power relay,

A standby power monitoring module 184 that calculates power every predetermined period (N-second) and compares the previously calculated power to control the state transition operation;

And a transmission / reception processing module 185 for processing a communication protocol for wirelessly transmitting the values monitored by the power consumption monitoring module, the overcurrent monitoring module, and the standby power monitoring module to a portable power monitoring access point. do.

At this time, the standby power monitoring module 184,

An idle mode processing module 184a for turning on the power relay to operate at power on or reset to initialize the variable and supply power;

An active mode processing module 184b for activating and operating the connected office or home appliance when the power relay is turned on by the idle mode processing module;

And a standby mode processing module 184c for turning off the power relay to block standby power consumption of the connected office or home appliance.

At this time, the portable power monitoring access point 200,

Transceiver 210 for wireless communication with the vision sensor and the smart plug,

Communication port unit 220 for communicating with the computer terminal,

A display unit 230 for displaying the power consumption, standby power, and mode status of the smart plug received from the smart plug;

Manual button unit 240 for switching the standby mode state of the smart plug to the active mode state,

Access point for processing communication protocol with smart plug and vision sensor, receiving activation signal of vision sensor, controlling automatic conversion of smart plug into active mode, and controlling signal flow for processing data transmission and reception with computer terminal It is characterized by including the MC oil (250).

At this time, the vision sensor 300,

Camera unit 310 for shooting a video,

An activity detector 320 for acquiring a video signal photographed through the camera unit and detecting a human or human activity;

It is characterized in that it comprises a vision sensor transmitter 330 for wirelessly transmitting the smart plug activation signal to the smart plug and portable power monitoring access point when detected by the activity detector.

In addition, the smart plug 100,

The communication method between the portable power monitoring access point 200 and the vision sensor 300 is a Zigbee communication method.

Hereinafter, an embodiment of the adaptive standby power cutoff control system according to the present invention will be described in detail.

1 is an overall configuration diagram of an adaptive standby power cutoff control system according to an embodiment of the present invention.

As shown in Figure 1, the present invention, the adaptive standby power cutoff control system,

A smart plug 100 that wirelessly transmits monitoring status information to a portable power monitoring access point by monitoring power consumption monitoring, standby power monitoring and overcurrent;

A portable power monitoring access point 200 which wirelessly communicates with the smart plug to receive and display power consumption information, standby power and monitoring state information, overcurrent and monitoring state information from the smart plug;

And a vision sensor 300 for wirelessly transmitting a smart plug activation signal to the smart plug and the portable power monitoring access point when the human body activity information is detected by processing the captured video signal while photographing a video.

That is, data can be transmitted and received using wireless communication between the smart plug, the portable power monitoring access point, and the vision sensor. The wireless communication method in the present invention adopts the Zigbee wireless communication method, but any other wireless communication method may be used. There will be no.

The vision sensor shoots a video and processes the captured video signal to wirelessly transmit the smart plug activation signal to the smart plug and the portable power monitoring access point when human activity information is detected, and the smart plug monitors power consumption and standby. The power monitoring and overcurrent are monitored to wirelessly transmit the monitoring status information to the portable power monitoring access point, and the portable power monitoring access point wirelessly communicates with the smart plug to provide power consumption information, standby power and monitoring status information, overcurrent and It receives and displays the monitoring status information so that the user can view it.

In this case, the portable power monitoring access point may perform data communication with the computer terminal 400 to check the current state in the computer terminal.

That is, by connecting the portable power monitoring access point and the computer terminal, the power consumption monitoring, standby power monitoring and overcurrent monitoring status can be confirmed through the computer terminal.

2 is a smart plug block diagram of an adaptive standby power cutoff control system according to an embodiment of the present invention.

As shown in Figure 2, the smart plug of the present invention,

AC / DC converter 110 for converting the supplied AC to DC,

A regulator 120 for converting the voltage converted by the AC / DC converter into 3.3V;

AC current sensor 130 for sensing the supplied AC current,

Power meter IC 140 for measuring Single-phase Active power (Watt) and Apparent power (VA) with reference to the current value detected from the AC current sensor, Irms, Vrms and signal period, and

A power relay 150 for receiving the standby power off control signal of the smart plug M U and providing an AC power switch function;

A wireless transceiver 160 for wireless communication with a portable power monitoring access point,

RCT 170 to generate a real-time clock to provide a smart plug MC euro,

It comprises a smart plug M U 180 to monitor the power consumption, standby power monitoring and over-current monitoring to control the signal flow for wireless transmission of the monitoring status information to the portable power monitoring access point.

The AC / DC converter 110 performs a function for converting the supplied AC into DC, and enables 5VDC / 3.3VDC voltage supply at 220VAC.

The regulator 120 is to convert the 5V voltage converted by the AC / DC converter to 3.3V.

In addition, the AC current sensor 130 detects the supplied AC current, and preferably uses a shunt resistance current sensor or a coil current sensor.

The power meter IC (PMIC) 140 measures single-phase active power (Watt) and apparent power (VA) with reference to the current value detected from the AC current sensor, and measures Irms, Vrms, and signal period.

The power relay 150 receives the standby power off control signal of the smart plug M U to provide the AC power switch function, when receiving the standby power off control signal is to turn off the standby power.

The wireless transceiver 160 performs a function for wireless communication with the portable power monitoring access point, and preferably performs a Zigbee communication function.

The RTC (RTC: Real-Time Clock, 170) generates a real-time clock to provide a smart plug MC, for example, to generate the YY / MM / DD, minute, second timing.

At this time, the smart plug M U 180, the most important component to monitor the power consumption, standby power monitoring and over-current to control the signal flow for wireless transmission of the monitoring status information to the portable power monitoring access point.

3 is an external perspective view of the smart plug of the adaptive standby power cutoff control system according to an embodiment of the present invention.

As shown in FIG. 3, the smart plug has a power cable 100a installed at one side for connecting to an outlet configured in a building, and an outlet 100b for connecting to an office device or a home appliance at one portion thereof. It is constructed.

Figure 4 is a block diagram of the smart plug M U of the adaptive standby power cutoff control system according to an embodiment of the present invention.

5 is a flowchart illustrating an operation process of the smart plug MC of the adaptive standby power cutoff control system according to an embodiment of the present invention.

4 to 5, the smart plug MC of the present invention,

An initialization module 181 for performing device setting and initialization, internal process resource setting, memory initialization, and variable initialization;

A power consumption monitoring module 182 for converting power consumption using raw data measured from a power meter IC,

If the power consumption is higher than the overcurrent threshold (Threshold), the overcurrent monitoring module 183 for determining the overcurrent to send an off signal to the power relay,

A standby power monitoring module 184 that calculates power every predetermined period (N-second) and compares the previously calculated power to control the state transition operation;

And a transmission / reception processing module 185 for processing a communication protocol for wirelessly transmitting the values monitored by the power consumption monitoring module, the overcurrent monitoring module, and the standby power monitoring module to a portable power monitoring access point. do.

That is, the initialization module 181 performs device setting and initialization of the smart plug, internal process resource setting, memory initialization, and variable initialization.

The smart plug of the present invention naturally constitutes a memory.

The power consumption monitoring module 182 converts power consumption by using raw data measured from the power meter IC, and the overcurrent monitoring module 183 converts the power consumption into an overcurrent if the power consumption is higher than a threshold of power consumption due to the overcurrent. It judges and sends an OFF signal to a power relay.

The standby power monitoring module 184, which is the core technology of the present invention, calculates power every certain period (N-second) and compares the previously calculated power to control the state transition operation. The standby power monitoring routine is enabled.

The transmission / reception processing module 185 processes a communication protocol for wirelessly transmitting values monitored by the power consumption monitoring module, the overcurrent monitoring module, and the standby power monitoring module to the portable power monitoring access point.

Referring to FIG. 5, an operation process is performed by the initialization module 181 to perform device setting and initialization, process internal resource setting, memory initialization, and variable initialization (S100), and by the power consumption monitoring module 182. Using the raw data measured from the power meter IC to convert the power consumption (S200).

Thereafter, if the power consumption is higher than the overcurrent threshold in the overcurrent monitoring module 183, it is determined as an overcurrent and transmits an off signal to the power relay (S300).

Subsequently, the standby power monitoring module 184 calculates the power every predetermined period (N-second) and compares the previously calculated power to control the state transition operation (S400), and then to the transmission / reception processing module 185. As a result, the values monitored by the power consumption monitoring module, the overcurrent monitoring module, and the standby power monitoring module are wirelessly transmitted to the portable power monitoring access point (S500).

FIG. 6 is an exemplary diagram illustrating a learning-based adaptive standby power cutoff control algorithm of smart plug MC of the adaptive standby power cutoff control system according to an embodiment of the present invention.

 The algorithm shown in FIG. 6 is processed by the standby power monitoring module 184, and the processing module is as follows.

That is, the idle mode processing module 184a for turning on the power relay to operate at power-on or reset to initialize the variable and supply power;

An active mode processing module 184b for activating and operating the connected office or home appliance when the power relay is turned on by the idle mode processing module;

It is configured to include a standby mode processing module 184c for turning off the power relay to block standby power consumption of the connected office or home appliances to perform the algorithm.

Specifically, it is defined as an adaptive 3-state state transition based on training.

At this time, after the N-second period power conversion, the state transition operation is performed.

That is, the standby power monitoring module calculates power every N seconds (new_pow) and compares the previously calculated power (pre_pow) to control the state transition operation.

The idle mode processing module 184a is a state mode that operates when the power is turned on or reset. The idle mode processing module 184a turns on the power relay in order to initialize all variables and supply power to the smart plug.

To explain the behavior, if pre_pow = 0, keep idle.

If the 2 bits valid = 00/01/10, then if (new_pow <pre_pow * 2) & (new_pow> pre_pow * 0.5), the idle mode is maintained.

if new_pow> pre_pow * 2, transition to active mode.

if new_pow <pre_pow * 0.5, transition to standby mode

If 2 bits valid = 11, then if new_pow> ACTV * 0.5, it transitions to active mode.

If new new_pow <STBY * 2, transition to standby mode.

If relay_off = 1, transition to standby mode unconditionally.

The relay_off signal is a signal controlled through a PC-GUI connected to the portable power monitoring access point.

The active mode processing module 184b is an operation mode in which an office device or a home appliance connected when the power relay is turned on by the idle mode processing module is activated.

To illustrate the operation, set the MSB of 2-bit valid value to 1 (1x).

The ACTV value is updated to the maximum value by comparing the power average value calculated at predetermined intervals (N-seconds).

If (new_pow <pre_pow * 2) & (new_pow> pre_pow * 0.5), it stays in active mode; if if new_pow <pre_pow * 0.5 or relay_off = 1, it transitions to standby mode.

If relay_off = 1, transition to standby mode unconditionally.

The relay_off signal is a signal controlled through a PC-GUI connected to the portable power monitoring access point.

The standby mode processing module 184c is a standby operation mode in which a connected office or home appliance uses standby power.

That is, to turn off the power relay to block standby power consumption.

To explain the operation, set the LSB of the 2-bit valid value to 1 (x1).

After N seconds have passed since the transition, the STBY value is updated with the calculated power value, and the power relay is turned off after 5 * N seconds.

If valid = 11 and if new_pow> ACTV * 0.5 before power off, transition to active mode.

If active_cmd = 1, transition to idle mode.

The active_cmd signal is controlled by a manual button signal of a portable power monitoring access point or a smart plug activation signal generated by a vision sensor.

If active_psw = 1, transition to idle mode.

The active_psw signal is an activation signal generated by a pushbutton switch in the smart plug main body.

That is, the pushbutton switch can be separately configured in the smart plug, which means an activation signal generated when the pushbutton switch is pressed.

7 is a block diagram of a portable power monitoring access point of an adaptive standby power cutoff control system according to an embodiment of the present invention.

As shown in Figure 7, the portable power monitoring access point 200,

Transceiver 210 for wireless communication with the vision sensor and the smart plug,

Communication port unit 220 for communicating with the computer terminal,

A display unit 230 for displaying the power consumption, standby power, and mode status of the smart plug received from the smart plug;

Manual button unit 240 for switching the standby mode state of the smart plug to the active mode state,

Access point for processing communication protocol with smart plug and vision sensor, receiving activation signal of vision sensor, controlling automatic conversion of smart plug into active mode, and controlling signal flow for processing data transmission and reception with computer terminal It is characterized by including the MC oil (250).

That is, the portable power monitoring access point wirelessly receives power monitoring status information (power consumption, standby power, voltage, current, etc.) of a plurality of smart plugs and displays them for the user to check, and controls standby power blocking of the smart plugs. Provides the ability to control manually and automatically.

In addition, by providing a serial communication or USB communication interface with the general-purpose PC to provide the function to display the smart plug status information and input the control information through the PC-GUI.

The transceiver 210 performs a function for wireless communication with the vision sensor and the smart plug, and preferably adopts a Zigbee communication method.

The communication port unit 220 is for communicating with a computer terminal, and performs a serial communication or USB communication function, 5VDC power supply function with the computer terminal.

The display 230 displays power consumption, standby power, and mode status of the smart plug received from the smart plug.

In other words, power consumption display (power consumption, cumulative power consumption, Vrms, Irms, etc.), standby power display (standby power, standby power off status: on / off, standby power monitoring activation control: on / off), smart plug information display (Active Mode, Standby Mode, Interim Mode, RTC: YY / MM / DD).

The manual button unit 240 is for converting the standby mode state of the smart plug into the active mode state. When the button is pressed, the manual button unit 240 is switched to the active mode state.

The access point MCU 250 processes the communication protocol with the smart plug and the vision sensor, receives the activation signal of the vision sensor, controls the automatic conversion of the smart plug into the active mode, and processes data transmission and reception with a computer terminal. To control the signal flow.

For example, communication protocol processing between smart plug and portable power monitoring access point, communication protocol processing between vision sensor and portable power monitoring access point, automatic switching control of smart plug operation mode by receiving activation signal of vision sensor, PC and portable power Data transmission / reception processing between supervisory access points, Zigbee communication control, and RS-232 / USB communication control are performed.

In this case, the computer terminal performs a function of displaying information of the portable power monitoring access point by connecting to the portable power monitoring access point by serial communication or a USB cable.

For example, power consumption display (power consumption and list-up table, cumulative power consumption, Vrms, Irms), standby power display (standby power, standby power off status: on / off, standby power monitoring activation control: on / off ), Smart plug information display (Active Mode, Standby Mode, Interim Mode, RTC: YY / MM / DD).

8 is an external perspective view of a portable power monitoring access point of an adaptive standby power cutoff control system according to an embodiment of the present invention.

As shown in FIG. 8, a display unit and a manual button unit are formed on the exterior of the portable power monitoring access point.

9 is a block diagram of a vision sensor of an adaptive standby power cutoff control system according to an embodiment of the present invention.

As shown in FIG. 9, the vision sensor 300 includes a camera unit 310 for capturing a video;

An activity detector 320 for acquiring a video signal photographed through the camera unit and detecting a human or human activity;

It comprises a vision sensor transmitter 330 for wirelessly transmitting the smart plug activation signal to the smart plug and portable power monitoring access point when detected by the activity detector.

That is, the CCD camera video signal is processed to wirelessly transmit the smart plug activation signal to the smart plug and the portable power monitoring access point whenever a human or human activity is detected.

The activity detecting unit 320 acquires a video signal photographed through a camera unit and performs a function for detecting a human or human activity. Since the detecting of the human body activity is well known to those skilled in the art, Detailed description will be omitted.

It will be appreciated by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not restrictive.

The scope of the invention is indicated by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the invention. do.

100: Smart Plug
200: portable power monitoring access point
300: vision sensor
400: computer terminal

Claims (7)

delete In the standby power cutoff control system,
A smart plug 100 that wirelessly transmits monitoring status information to a portable power monitoring access point by monitoring power consumption monitoring, standby power monitoring and overcurrent;
A portable power monitoring access point 200 which wirelessly communicates with the smart plug to receive and display power consumption information, standby power and monitoring state information, overcurrent and monitoring state information from the smart plug;
It comprises a vision sensor 300 for wirelessly transmitting a smart plug activation signal to the smart plug and the portable power monitoring access point when the human body activity information is detected by processing the video signal taken by shooting a video;
The smart plug 100,
AC / DC converter 110 for converting the supplied AC to DC,
A regulator 120 for converting the voltage converted by the AC / DC converter into 3.3V;
AC current sensor 130 for sensing the supplied AC current,
Power meter IC 140 for measuring Single-phase Active power (Watt) and Apparent power (VA) with reference to the current value detected from the AC current sensor, Irms, Vrms and signal period, and
A power relay 150 for receiving the standby power off control signal of the smart plug M U and providing an AC power switch function;
A wireless transceiver 160 for wireless communication with a portable power monitoring access point,
RCT 170 to generate a real-time clock to provide a smart plug MC euro,
Adaptive plug, characterized in that it comprises a smart plug M U 180 for monitoring the power consumption, standby power monitoring and over-current to control the signal flow for wireless transmission of monitoring status information to the portable power monitoring access point Standby power cutoff control system.
The method of claim 2,
The smart plug M C 180,
An initialization module 181 for performing device setting and initialization, internal process resource setting, memory initialization, and variable initialization;
A power consumption monitoring module 182 for converting power consumption using raw data measured from a power meter IC,
If the power consumption is higher than the overcurrent threshold (Threshold), the overcurrent monitoring module 183 for determining the overcurrent to send an off signal to the power relay,
A standby power monitoring module 184 that calculates power every predetermined period (N-second) and compares the previously calculated power to control the state transition operation;
And a transmission / reception processing module 185 for processing a communication protocol for wirelessly transmitting values monitored by the power consumption monitoring module, the overcurrent monitoring module, and the standby power monitoring module to a portable power monitoring access point. Adaptive standby power cutoff control system.
The method of claim 3, wherein
The standby power monitoring module 184,
An idle mode processing module 184a for turning on the power relay to operate at power on or reset to initialize the variable and supply power;
An active mode processing module 184b for activating and operating the connected office or home appliance when the power relay is turned on by the idle mode processing module;
Adaptive standby power cutoff control system, characterized in that comprises a standby mode processing module (184c) for turning off the power relay to cut off the standby power consumption of the connected office equipment or home appliances.
In the standby power cutoff control system,
A smart plug 100 that wirelessly transmits monitoring status information to a portable power monitoring access point by monitoring power consumption monitoring, standby power monitoring and overcurrent;
A portable power monitoring access point 200 which wirelessly communicates with the smart plug to receive and display power consumption information, standby power and monitoring state information, overcurrent and monitoring state information from the smart plug;
It comprises a vision sensor 300 for wirelessly transmitting a smart plug activation signal to the smart plug and the portable power monitoring access point when the human body activity information is detected by processing the video signal taken by shooting a video;
The portable power monitoring access point 200,
Transceiver 210 for wireless communication with the vision sensor and the smart plug,
Communication port unit 220 for communicating with the computer terminal,
A display unit 230 for displaying the power consumption, standby power, and mode status of the smart plug received from the smart plug;
Manual button unit 240 for switching the standby mode state of the smart plug to the active mode state,
Access point for processing communication protocol with smart plug and vision sensor, receiving activation signal of vision sensor, controlling automatic conversion of smart plug into active mode, and controlling signal flow for processing data transmission and reception with computer terminal Adaptive standby power cutoff control system, characterized in that it comprises a MC (250).
In the standby power cutoff control system,
A smart plug 100 that wirelessly transmits monitoring status information to a portable power monitoring access point by monitoring power consumption monitoring, standby power monitoring and overcurrent;
A portable power monitoring access point 200 which wirelessly communicates with the smart plug to receive and display power consumption information, standby power and monitoring state information, overcurrent and monitoring state information from the smart plug;
It comprises a vision sensor 300 for wirelessly transmitting a smart plug activation signal to the smart plug and the portable power monitoring access point when the human body activity information is detected by processing the video signal taken by shooting a video;
The vision sensor 300,
Camera unit 310 for shooting a video,
An activity detector 320 for acquiring a video signal photographed through the camera unit and detecting a human or human activity;
Adaptive standby power cutoff control system characterized in that it comprises a vision sensor transmitter for transmitting the smart plug activation signal to the smart plug and portable power monitoring access point wirelessly when detected by the activity detector.
delete

Images