KR20120077424A - Wireless power monitering receptacle and power management method thereof - Google Patents

Abstract

PURPOSE: A wireless power monitoring receptacle and a power control method thereof are provided to prevent malfunction of a receptacle through automatic battery charge control and power consumption control according to the residual power of battery. CONSTITUTION: An AC input unit(110) receives AC power source from a connected receptacle. A relay switch(120) switches the electrical contact between the AC input unit and an AC output unit(130) and a charge unit(140). The AC output unit outputs the AC power source applied from the AC input unit through the relay switch to a connected electronic device. The charge unit charges a battery(150) with the AC power source applied through the relay switch from the AC input unit. The battery supplies power to a wireless communication module(160) which is connected to an external control system, a control unit which measures applied power to obtain the power consumption of the electronic device, and a display unit(170).

Description

Wireless power monitoring outlet and its power control method {Wireless Power Monitering Receptacle and Power Management Method}

The present invention relates to an outlet, and more particularly, to an outlet that can monitor the power consumed by the connected electronic device and cut off standby power.

With the emphasis on reducing energy consumption along with green energy technology, outlets that automatically shut off power by determining the standby status of electronic devices connected to electrical outlets have been developed and used.

Even when the power applied to the electronic device is cut off by the outlet, since power is continuously applied to the outlet, power consumption at the outlet is continuously made.

In order to save more power, it is desirable to cut off standby power consumed by an outlet in addition to the electronic device. Therefore, when the electronic device enters the standby state, it is required to find a method for blocking external power consumption of the electronic device and the outlet.

The present invention has been made to solve the above problems, an object of the present invention, the outlet and the outlet so as not to consume power applied from the outside as well as the electronic device when the electronic device enters the standby state It is to provide a power control method.

Another object of the present invention is to provide an outlet and a power control method thereof capable of automatically performing battery charging control and power consumption control so that a function failure of the outlet does not occur because power is not applied from the outside.

According to the present invention for achieving the above object, the outlet, the power input unit is input power from the outside; A power output unit for outputting power input from the power input unit to a connected electronic device; A charging unit which charges a battery using power input from the power input unit; A switch for switching an electrical connection between the power input unit and the power output unit and the charging unit; And a controller which is driven by power supplied from the battery and controls a switching operation of the switch.

If it is determined that standby power is being consumed in the electronic device, the controller switches the switch so that the 'power input unit' and the 'power output unit and the charging unit' are electrically disconnected and input from the power input unit. It is preferable to cut off power so that power is not transmitted to the power output unit and the charging unit.

The outlet further includes a display unit for displaying power consumption information, wherein the control unit comprises: 1) when the switch is switched to electrically connect the power input unit and the power output unit and the charging unit; It is preferable to turn off the display unit when the switch is switched so that the consumption information is calculated and displayed on the display unit, and 2) the power input unit and the power output unit and the charging unit are electrically disconnected. .

When the remaining amount of the battery is less than the first remaining amount, the controller may switch the switch such that the power input unit and the power output unit and the charging unit are electrically connected to each other.

The controller may switch the communication mode with the external device to the low power communication mode when the remaining amount of the battery is greater than or equal to the first remaining amount and less than the second remaining amount.

The low power mode may be one of a synchronous mode in which a duty cycle is less than a reference and an asynchronous mode in which power consumption is lower than that of the synchronous mode.

The controller may control a switching operation of the switch according to a command of an external device.

On the other hand, the power supply control method according to the present invention, when the power is input from the outside through the switch, outputting the input power to the connected electronic device; If power is input from the outside through the switch, charging the battery using the input power; And controlling a switching operation of the switch by a control device driven by a power supplied from the battery.

In the controlling step, when it is determined that standby power is being consumed in the electronic device, the control element preferably switches off the switch.

The power supply control method includes the steps of: when the switch is switched off, the control device measures the remaining amount of the battery; And when the remaining amount of the battery is less than the first remaining amount, switching the switch on by the control element.

The power supply control method may further include the step of, by the control device, changing the communication mode with the external device to the low power communication mode when the remaining amount of the battery is greater than or equal to the first remaining amount and less than the second remaining amount.

As described above, according to the present invention, when the electronic device enters the standby state, the connected electronic device as well as the outlet may not consume power applied from the outside, thereby further reducing power consumption.

In addition, while the power is not applied from the outside, the remaining battery level is sensed, and the battery charge control and power consumption control can be automatically performed according to the detected battery remaining amount, thereby preventing the malfunction of the outlet.

1 is a block diagram of an energy independent wireless power monitoring outlet according to an embodiment of the present invention, and
2 is a flowchart provided to explain a power supply control method according to another embodiment of the present invention.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

1 is a block diagram of an energy independent wireless power monitoring outlet in accordance with an embodiment of the present invention. The wireless power monitoring outlet according to the present embodiment, 1) measure and display the power consumed by the connected electronic device, 2) transmit information on the power consumption to the control system wirelessly, and 3) the standby power consumed by the electronic device Shut off power.

The wireless power monitoring outlet according to the present embodiment controls not only the standby power consumed by the electronic device but also external power consumed by the electronic device, so that there is no problem in performing a normal function.

As shown in FIG. 1, the wireless power monitoring outlet 100 according to the present embodiment includes an AC input unit 110, a relay switch 120, an AC output unit 130, a charging unit 140, and a battery 150. A wireless communication module 160 and a display unit 170 are provided.

The AC input unit 110 is connected to another outlet and receives AC power from the connected outlet.

The relay switch 120 switches the electrical connection between the AC input unit 110 and the AC output unit 130 and the charging unit 140. Specifically, when the relay switch 120 is "switched-on", the 'AC input unit 110' and the 'AC output unit 130 and the charging unit 140' are electrically conductive, and through the AC input unit 110. The input AC power is applied to both the 'AC output unit 130 and the charging unit 140'.

On the other hand, when the relay switch 120 is "switched-off", the "AC input unit 110" and the "AC output unit 130 and the charging unit 140" is electrically cut off, the 'AC input unit 110' AC power input through the 'AC output unit 130 and the charging unit 140' is not applied anywhere.

The AC output unit 130 outputs AC power applied from the AC input unit 110 through the relay switch 120 to the connected electronic device.

The charging unit 140 charges the battery 150 using the AC power applied from the AC input unit 110 through the relay switch 120. The charging unit 140 may charge the battery 150 using a current transducer.

The battery 150 supplies power to the wireless communication module 160, the control unit 165 and the display unit 170 provided therein.

Since the power source of the wireless communication module 160 and the control unit 165 provided therein is the battery 150, the AC input unit 110 is not connected to another outlet or the relay switch 120 is “switched off”. You can also get the power you need.

The wireless communication module 160 is connected to communicate with an external control system. The controller 165 measures power applied to the electronic device through the AC output unit 130 to determine power consumption of the electronic device.

The controller 165 displays information on power consumption of the electronic device on the display unit 170. The display unit 170 is implemented as a display such as an LCD (Liquid Crystal Display).

In addition, the controller 165 may wirelessly transmit information about the determined power consumption of the electronic device to the external control system through the wireless communication module 160. In addition, the controller 165 may control a power supply operation of the wireless power monitoring outlet 100 according to a command of an external control system.

On the other hand, if it is determined that the standby power is being consumed by the electronic device, the controller 165 may take measures not to consume power applied from the outside in the wireless power monitoring outlet 100 as well as the electronic device. Bar is controlled so that there is no problem in continuing the performance of the function, will be described in detail with reference to FIG.

2 is a flowchart provided to explain a power supply control method according to another embodiment of the present invention.

As shown in FIG. 2, the controller 165 measures power applied to the electronic device through the AC output unit 130 to determine power consumption of the electronic device (S210).

As a result of the grasp of step S210, when the electronic device is not consuming standby power, that is, when the electronic device is operating (S220 -N), the controller 165 "switches-on" the switching state of the relay switch 120. Maintained at S290, the AC power input through the AC input unit 110 is continuously applied to the electronic device through the AC output unit 130.

On the other hand, as a result of the grasp of step S210, when the electronic device is consuming standby power, that is, when the electronic device is not operating (S220-Y), the control unit 165 "switching-" the switching state of the relay switch 120 OFF "to prevent the AC power input through the AC input unit 110 from being applied to the AC output unit 130 as well as the charging unit 140.

Even when the relay switch 120 is "switched-off", since the controller 165 receives the necessary power through the battery 150, the controller 165 may operate normally. The controller 165 turns off the display unit 170 to cut off power consumed by the display unit 170.

Thereafter, the controller 165 periodically measures the remaining amount of the battery 150 (S240).

As a result of the measurement in step S240, when the remaining amount of the battery 150 is determined to be less than 20% (S250-Y & S260-Y), the control unit 165 switches the switching state of the relay switch 120 to "switching-on". In operation S290, AC power input through the AC input unit 110 is applied to the charging unit 140, thereby ultimately charging the battery 150.

On the other hand, if it is determined that the remaining amount of the battery 150 is less than 50% but more than 20% (S250-Y & S260-N), the controller 165 performs a communication mode with an external control system using the wireless communication module 160. Switch to the low power communication mode (S270).

In order to switch to the low power communication mode in step S270, 1) the control unit 165 and the external control system maintain the communication mode in the synchronous mode, but lower the duty cycle than the present, or 2) the power consumption of the communication mode than the synchronous mode You can switch to smaller asynchronous mode.

Meanwhile, when the power control command is received from the external control system through the wireless communication module 160 while performing the algorithm shown in FIG. 2, the controller 165 switches the switching state of the relay switch 120 according to the command. To control.

Specifically, upon receiving the 'power supply' command from the external control system through the wireless communication module 160, the control unit 165 "switching on" the relay switch 120 is input through the AC input unit 110 AC power is applied to the electronic device connected to the AC output unit 130. In this case, AC power input through the AC input unit 110 may be applied to the charging unit 140.

On the other hand, when receiving a 'power off' command from the external control system through the wireless communication module 160, the control unit 165 "switching off" the relay switch 120 AC input through the AC input unit 110 The power is not applied to the electronic device connected to the AC output unit 130. At this time, the AC power input through the AC input unit 110 will not be applied to the charging unit 140.

Until now, the electronic device as well as the wireless power monitoring outlet (100) to take measures not to consume power applied from the outside, the process of controlling so that the problem does not occur to continue performing the function of the wireless power monitoring outlet (100) It described in detail, for a preferred embodiment.

In the above embodiment, "50%" and "20%", which are referred to as thresholds of the battery level, are merely examples for convenience of description. Of course, these numbers can be changed to other values as needed.

In addition, while the preferred embodiments of the present invention have been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

100: wireless power monitoring outlet
110: AC input unit 120: relay switch
130: AC output unit 140: charging unit
150: battery 160: wireless communication module
165 control unit 170 display unit

Claims (11)

A power input unit to which power is input from the outside;
A power output unit for outputting power input from the power input unit to a connected electronic device;
A charging unit which charges a battery using power input from the power input unit;
A switch for switching an electrical connection between the power input unit and the power output unit and the charging unit; And
And a controller which is driven by power supplied from the battery and controls a switching operation of the switch.
The method of claim 1,
The control unit,
When it is determined that standby power is being consumed in the electronic device, the switch is switched so that the 'power input unit' and the 'power output unit and the charging unit' are electrically disconnected, so that the power input from the power input unit is supplied to the power source. Outlet characterized in that the cut off so that it is not transmitted to the output and the charging unit.
The method of claim 2,
The display unit further displays power consumption information.
The control unit,
1) when the switch is switched to electrically connect the power input unit and the power output unit and the charging unit, power consumption information is calculated and displayed on the display unit; and 2) the power input unit and the power supply unit. And when the switch is switched such that the power output unit and the charging unit are electrically disconnected, the display unit is turned off.
The method of claim 2,
The control unit,
And when the remaining amount of the battery is less than the first remaining amount, switching the switch such that the power input unit and the power output unit and the charging unit are electrically connected to each other.
The method of claim 4, wherein
The control unit,
And when the remaining amount of the battery is greater than or equal to the first remaining amount and less than the second remaining amount, switching the communication mode with an external device to a low power communication mode.
6. The method of claim 5,
The low power mode,
A socket according to claim 1, wherein the outlet is one of a synchronous mode having a duty cycle of less than a reference and an asynchronous mode having a smaller power consumption than the synchronous mode.
The method of claim 1,
The control unit,
The outlet according to the external device, characterized in that for controlling the switching operation of the switch.
If power is input from the outside through the switch, outputting the input power to the connected electronic device;
If power is input from the outside through the switch, charging the battery using the input power; And
And controlling a switching operation of the switch by a control element driven by a power supplied from the battery.
The method of claim 8,
The control step,
And if it is determined that standby power is being consumed in the electronic device, the control element switches off the switch.
The method of claim 9,
When the switch is switched off, the control device measuring the remaining amount of the battery; And
If the remaining amount of the battery is less than the first remaining amount, the control element switching on the switch; power control method further comprises.
The method of claim 10,
If the remaining amount of the battery is greater than or equal to the first remaining amount and less than the second remaining amount, the control element switching the communication mode with an external device to a low power communication mode.

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