KR101826184B1 - Standby power control apparatus having a standby power saving - Google Patents

Abstract

The present invention relates to a standby power control apparatus having a standby power saving function for detecting a consumed power consumption state in an off mode or a power saving mode of a computer and realizing optimal power saving by completely shutting off standby power based on the detected power consumption state for a long time A power supply unit for supplying power to the computer and a main board for controlling the overall operation of the computer, wherein when the operation mode of the computer is in the off mode or the power saving mode, And a standby power control unit for automatically switching the state to a state in which the standby power can be turned off and then executing a standby power cutoff mode to reduce the standby power, thereby realizing a standby power control apparatus having a standby power saving function.

Description

[0001] The present invention relates to a standby power control apparatus having a standby power saving function,

The present invention relates to a standby power control apparatus having a standby power saving function. More particularly, the present invention relates to a standby power control apparatus that detects a power consumption state in an off mode or a power saving mode of a computer, To a standby power control device having a standby power saving function for realizing optimal power saving.

Generally, the computer operates in various modes of operation. For example, it operates in various modes such as an off mode, a power saving mode, and an operating mode.

Here, the off mode refers to the state where the AC power is inputted or the computer is not turned on, the operation mode means the state after the power supply is turned on and booted by pressing the power switch of the computer, It means that the power-saving mode is entered to reduce power.

Here, the power consumption varies according to each operation mode. In the power saving mode, power control is performed using a predetermined power saving algorithm for power saving.

Various studies have been conducted for power saving of the computer main body, and the related arts of the stand-by power interrupter are disclosed in the following Patent Documents 1 to 3. [

In the prior art disclosed in Patent Document 1, a power switching unit is provided at a front stage when power is supplied to a computer, and the standby power is shut off by turning off the power of a computer and a peripheral (monitor) when the computer is turned off. In other words, the computer includes a power switching unit 20 for receiving external commercial power and providing operating power for the internal components of the computer, an outlet power switching unit 19 for shutting off / supplying power to the peripheral devices, When the computer is in the standby mode (power save mode), the power source switching unit 19 is controlled using the memory power source to cut off the power (AC power) supplied to the computer peripheral device. Through this process, the standby power is cut off to prevent the waste of power saving and suppress the generation of co2.

In addition, the conventional technology disclosed in Patent Document 2 monitors the driving state of the computer, and when the computer is not operated, peripheral devices (monitors, lights, heaters, air conditioners Etc.), and when the user operates the computer again, the power is automatically supplied to the peripheral device without any separate operation to the peripheral device. According to this control, when the power line communication is used according to the operation state of the computer, it is not necessary to install a separate cable, the power supply is controlled to the peripheral device by using the already installed power line, Non-idle time and energy wasted during standby time after system shutdown.

In addition, the prior art disclosed in Patent Document 3 completely disables the power supply of the computer peripheral device in the standby mode (power saving mode) or the monitor power off mode while the computer is in use, and completely turns off the power of the computer and the peripheral device when the computer is turned off. By shutting off control, waste power consumption and wasted standby power are set to zero without unplugging, and CO ₂ over-discharge caused by unnecessary power generation is suppressed to reduce environmental pollution.

International Publication No. WO 2013147483 Al (published Oct. 3, 2013) Korean Patent Publication No. 10-2011-0101564 (published on September 16, 2011) Korean Patent Laid-Open No. 10-2013-0109060 (Published Oct. 10, 2013)

However, the above-described conventional techniques have an advantage in that power consumption of a peripheral device is prevented from being wasted when the computer is powered off or in a power saving mode, and power consumption of the computer main body is also prevented to some extent in a power saving mode. However, Accordingly, standby power is controlled only by the power saving algorithm that is basically set, and thus there is a disadvantage that the standby power of the computer main body can not be controlled optimally.

For example, the power saving is implemented in the off mode or the power saving mode, but the standby power consumed can not be controlled again when the corresponding mode is maintained for a long time.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve all of the above-mentioned problems occurring in the related art, and it is an object of the present invention to provide a power supply control apparatus, An object of the present invention is to provide a standby power control apparatus having a standby power saving function for controlling the standby power source in a shutdown mode to realize optimal power saving.

It is another object of the present invention to provide a method and apparatus for automatically switching off the power saving mode when the computer is in the power saving mode and continuing the power saving mode for a long time, And a standby power control device that has a standby power saving function that can reduce power consumption by completely shutting down the standby power control device.

In order to achieve the above object, a standby power control apparatus having a standby power saving function according to the present invention is provided between a power supply apparatus for supplying power to a computer and a main board for controlling the overall operation of the computer, And a standby power controller for automatically switching standby power shutdown mode based on the continuous state of the operation mode in a state where the operation mode of the computer operates in an off mode or a power saving mode to reduce standby power.

Wherein the standby power control unit determines the continuous state of the power saving mode by detecting the power consumption when the operation mode of the computer operates in the power saving mode and if the power saving mode is maintained for the first set time or longer, The computer is switched to the operating mode, and the computer is automatically switched to the shutdown state after the second set time period when the computer is switched to the operating mode, thereby switching to the off mode.

The standby power control unit detects the power consumption when the operation mode of the computer operates in the off mode and determines the continuous state of the off mode. If the off mode is maintained for the third predetermined time or more, So that the power consumption is reduced.

The standby power control unit includes a power input unit connected to the power supply unit to acquire power supply status information and to transmit a control signal to the power supply unit; A power output unit connected to the main board to supply main power to the main board and to supply or cut off standby power; A standby power detector for detecting power consumption of the main board; A standby power supply power measuring unit for converting the power consumption detected by the standby power supply power detecting unit into digital power consumption data; A power supply state analyzer for analyzing a state of the power supply; And a power controller for controlling the power supply operation by performing standby power control and power saving mode control based on the power consumption of the main board detected by the standby power measurement unit, the status information of the power supply unit, and event information .

The power control unit includes a standby mode power controller for generating an event for standby power control based on the power consumption measurement result of the main board; A power saving mode power controller for generating an event for power saving mode control based on the power consumption measurement result; And a power operating unit for analyzing an operation mode and a power consumption state according to an event occurring in the standby mode power control unit and the power saving mode power control unit and controlling power operation according to the analyzed operation mode and power consumption state .

Wherein the standby power controller includes a power supply controller for transmitting the power supply analysis information to the power controller in cooperation with the power controller and outputting a power supply status control signal generated by the power controller; And a power supply state controller for controlling the state of the power supply by transmitting a power supply state control signal generated by the power supply controller to the power supply.

The standby power control unit includes a standby power cutoff and supply unit for supplying or cutting off the standby power supplied to the main board according to the standby power control signal generated by the power control unit.

The standby power control unit includes a standby power switch for shutting off or supplying the standby power supplied to the main board according to the control of the standby power cutoff and the supply unit.

The standby power control unit may include a power switch state sensing unit for sensing an operation state of the power switch provided in the main body; And a power switch state controller for transmitting a power switch operation signal to the main board.

According to the present invention, an optimal power saving can be achieved by controlling a standby power source of a computer based on a power consumption state that varies depending on operation modes of the computer.

In particular, when the operation mode of the computer is in the off mode, the standby power shutdown mode is automatically executed based on the power consumption to completely shut off the standby power, thereby making it possible to save power by making no power consumption state.

FIG. 1 is a view illustrating a connection state and a power switch connection state of a general computer,
FIG. 2 and FIG. 3 are diagrams illustrating a connection state between the power supply unit, the power switch, the standby power control unit, and the main board,
4 is a block diagram of a standby power control apparatus having a standby power saving function according to the present invention;

Hereinafter, a standby power control apparatus having a standby power saving function according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 and FIG. 3 are mounting examples of a standby power control apparatus having a standby power saving function according to a preferred embodiment of the present invention.

FIG. 1 is a connection diagram of a power supply of a general computer and a power switch 30. The power supply 20 and the main board 10 are connected to each other through an ATX power connector. (10).

The standby power control apparatus according to the present invention may be implemented as a single module called a standby power control unit 100 and may be connected to a power supply unit 20 such as an SMPS typically provided in a computer as shown in FIG. It is preferable to use it by attaching it.

This makes it possible to install and use the computer without changing the configuration of the computer that is used in the conventional commercialization.

The standby power control unit 100 is connected to the power supply unit 20 through a power input unit 101 which is an ATX power supply connector and is connected to the main board 10 through a power output unit 102 which is an ATX power supply connector. Here, the power output unit 102 may be implemented in the standby power control unit 100, or the power connector provided in the main board 10 may be used as it is.

In the present invention, the standby power control apparatus using the standby power control unit 100 completely cut off the standby power supplied to the main board 10 for power saving in the off mode. 3, the standby power control unit 100 recognizes the power switch 30, and the power switch 30 is turned on when the power switch 30 is turned on, To the main board 10 in response to the operation state of the power switch.

Through this connection configuration, the power switch operation signal is transmitted through the standby power control unit 100 even when the main board 10 is completely powered off. In order to do this, the standby power supply must be supplied to the main board 10 in advance.

2 is a connection state diagram in which an operation signal of the power switch 30 is simultaneously connected to the standby power control unit 100 and the main board 10. The connection configuration shown in FIG. 2 can simplify the connection configuration compared to the power signal connection configuration shown in FIG.

4 is a block diagram of a specific embodiment of the standby power controller 100, which is a standby power controller for controlling the standby power by being coupled between the power supply 20 and the main board 10 as described above.

4, a standby power control apparatus having a standby power saving function according to the present invention includes a power supply unit 10 for supplying power to a computer and a main board 20 for controlling the overall operation of the computer And a standby power control unit 100 for automatically switching the standby power-off mode based on the continuous state of the operation mode in a state where the operation mode of the computer operates in an off mode or a power saving mode to reduce standby power do.

When the operation mode of the computer operates in the power saving mode, the standby power control unit 100 determines the power saving mode by detecting the power consumption, and if the power saving mode is maintained for a predetermined period of time, It is preferable to control the computer to switch to the operating mode and switch the computer to the off mode automatically after a certain period of time in the state of switching to the operating mode.

When the operation mode of the computer is in the off mode, the standby power control unit 100 determines the continuous state of the off mode by detecting the power consumption. If the off mode is maintained for a predetermined time or more, It is more preferable to completely cut off the standby power of the main board 10 to reduce power consumption.

The standby power control unit 100 includes a power input unit 101, a power supply condition analyzing unit 103, a standby power detection unit 104, a standby power measurement unit 105, a power supply control unit 106, A power switch state detecting unit 109, a power switch state control unit 110, a standby power switch 111, and a power control unit 120. The power supply unit 110 includes a power supply unit state control unit 107, a standby power supply interruption and supply unit 108,

Here, the power supply state analysis unit 103, the standby power detection unit 104, the standby power measurement unit 105, the power supply control unit 106, the power supply state control unit 107, The power switch state detector 109, the power switch state controller 110, the standby power switch 111 and the power controller 120 may be incorporated in one component and may be connected to the power supply device 20 May be embedded.

The power input unit 101 is connected to the power supply unit 20 to acquire power supply status information and to transmit a control signal to the power supply unit 20. The power input unit 101 may be an ATX Power connector.

The power output unit 102 is connected to the main board 10 and supplies main power (5V, 3.3V, 12V, etc.) to the main board 10 and supplies or blocks standby power. Here, the power output unit 102 refers to a power connection connector between the main board 10 and the power supply unit 20 of a typical computer.

The standby power detection unit 104 detects the power consumption of the main board 10 and the standby power detection unit 105 measures the power consumption detected by the standby power detection unit 104 To digital power consumption data and transmits the digital power consumption data to the power control unit 120.

The power supply status analyzing unit 103 analyzes the status of the power supply based on the status signal of the power supply 20.

The power control unit 120 controls the standby power control and the power saving mode based on the power consumption of the main board 10 detected by the standby power detection unit 105 and the status information and event information of the power supply 20, And controls power operation by performing control.

The power control unit 120 includes a standby mode power control unit 121 for generating an event for standby power control based on a power consumption measurement result of the main board 10, A power saving mode power control unit 122 for generating an event for power saving mode power control unit 122 and an operation mode and power consumption state according to an event generated in standby mode power control unit 121 and power saving mode power control unit 122, And a power operation unit 123 for controlling the power operation according to the power consumption state.

The power supply controller 106 transmits the power supply status analysis information to the power controller 120 in cooperation with the power controller 120, And outputs a control signal.

The power supply state control unit 107 controls the state of the power supply unit 20 by transmitting a power supply state control signal generated by the power supply control unit 106 to the power supply unit 20 .

The standby power control unit 100 includes a standby power cutoff and supply unit 108 for supplying or cutting off the standby power supplied to the main board 10 according to a standby power control signal generated by the power control unit 120, And a standby power switch 111 for shutting off or supplying the standby power supplied to the main board 10 under the control of the blocking and supplying unit 108.

The standby power control unit 100 includes a power switch state detecting unit 109 for detecting an operation state of the power switch 30 provided in the main body, a power switch state detecting unit 109 for transmitting a power switch operating signal to the main board 10, And a control unit 110.

The operation of the standby power control apparatus having the standby power saving function according to the present invention will now be described in detail.

First, when the computer is supplied with power and is operating in the operating mode, when the power saving state is entered, the main board 10 enters the power saving mode by the power saving algorithm. Here, the process of entering the power saving mode in the operating mode is performed in the same manner as the normal procedure in a general computer.

The standby power detection unit 104 of the standby power control unit 100 determines the amount of power consumption of the standby power output from the power input unit 101 to the power output unit 102 in a state where the main board 10 enters the power saving mode . At this time, the standby power switch 111 is turned on, and the standby power supply 5V is supplied from the power supply device 20 to the main board 10. [ It is preferable to use a general power consumption measuring method as the power consumption amount. Here, the amount of power consumption of the standby power source varies depending on the operation mode of the main board 10.

The analog power consumption detected by the standby power detection unit 104 is converted into digital power consumption data through the standby power detection unit 105 and transmitted to the power control unit 120.

The standby mode power control unit 121 and the power saving mode power control unit 122 of the power control unit 120 respectively analyze the digital power consumption data to determine the operation state of the main board 10. [ The power saving mode power control unit 122 determines that the main board 10 is in the power saving mode and generates an event for the power saving mode power transfer unit 122 and transmits the event to the power operation processing unit 123. [ That is, the standby mode power control unit 121 does not generate an event, and the power consumption mode in which only the power saving mode power control unit 122 is detected is an amount of power consumption corresponding to the power saving mode, so that the power saving mode event is generated.

When the power saving mode event is generated by the power saving mode power controller 122, the power operation unit 123 counts the duration of the power saving mode from that time. Then, it compares the counted duration with a preset first preset time (which can be arbitrarily set through experiments or the like) for power saving control, and confirms whether the power saving mode duration is maintained for the first set time or longer. If it is determined that the power saving mode duration is not less than the first predetermined time, the controller determines that the user is not using the computer and generates an operation signal to the main board 10 through the power switch state controller 110 .

The main board 10, which has received the operation signal through the power switch state controller 110, normally recognizes the user as if the user depresses the power switch provided in the main body, and switches the operation mode of the computer from the power saving mode to the operation mode .

When the operation mode of the computer is switched to the operating mode, the amount of power consumption detected by the standby power detection unit 104 is changed, and the detected amount of power consumption data is transmitted to the standby power measurement unit 105 And the changed state information data of the power supply unit 20 acquired through the power supply state analyzer 103 is transmitted to the power controller 120 through the power supply controller 106 . If the power consumption amount corresponding to the operating mode and the state of the power supply unit 20 are detected as data of the operating mode after the preset second set time, the power saving mode power control unit 122 again ends the operating mode And transmits the generated event to the power operation unit 123.

The power operation unit 123 generates a power switch operation signal through the power switch state controller 110 and transmits the generated power switch operation signal to the main board 10 when an event occurs in the power saving mode power controller 122. [ The power switch operation signal generated at this time is a power switch operation signal corresponding to the user turning off the computer by pressing the power switch of the main body.

Upon receiving the power switch operation signal, the main board 10 normally terminates the computer and switches to the off mode.

The standby power detection unit 104 of the standby mode power control unit 100 measures the amount of power consumption of the standby power supply output from the power input unit 101 to the power output unit 102. [ At this time, the standby power switch 111 is turned on, and the standby power supply 5V is supplied from the power supply device 20 to the main board 10. [ It is preferable to use a general power consumption measuring method as the power consumption amount. Here, the amount of power consumption of the standby power source varies depending on the operation mode of the main board 10.

The analog power consumption detected by the standby power detection unit 104 is converted into digital power consumption data through the standby power detection unit 105 and transmitted to the power control unit 120.

The standby mode power control unit 121 and the power saving mode power control unit 122 of the power control unit 120 respectively analyze the digital power consumption data to determine the operation state of the main board 10. [ The power saving mode power control unit 122 does not generate an event and the standby mode power control unit 121 generates an event that the standby power can be shut off and transmits the event to the power operating unit 123 do.

When the off mode event is generated by the standby mode power controller 121, the power operation unit 123 counts the duration of the off mode from that time. Then, the counted duration time is compared with a preset third preset time (which can be arbitrarily set through experiments or the like) for power saving control, and it is confirmed whether the off mode duration is maintained for the third set time or more. If it is determined that the user's computer is in the off mode, the control unit 110 generates a control signal for shutting off the standby power, and transmits the control signal to the standby power shutoff and supply unit 108 do.

The standby power source cutoff and supply unit 108 turns off the standby power switch 111 according to the standby power cutoff control signal to be transmitted and completely cuts off standby power supplied to the main board 10 to save standby power .

On the other hand, when the standby power supplied to the main board 10 is completely cut off, the main board 10 can not recognize the power switch 30 provided in the main body 10 even if the power switch 30 is operated by the user. In this case, the operation state of the power switch 30 is sensed through the power switch state sensing unit 109, and when the power switch 30 is operated, the power control unit 120 controls the power switch state control unit 110, Generates an operation signal and transmits it to the main board 10.

In addition, when an event for the power switch operation signal is generated, the state of the power supply unit 20 is analyzed through the power supply unit state analysis unit 103, and based on the analysis result, the power supply unit 20 And generates a power supply status control signal so as not to malfunction. The power supply state control signal is transmitted to the power supply state control unit 107 through the power supply control unit 106 and controls the state of the power supply 20 through the power supply state control unit 107. [

And generates a standby power supply control signal to the standby power interruption and supply unit 108. [ The standby power interruption and supply unit 108 turns on the standby power switch 111 according to the standby power supply control signal to be transmitted so that the standby power generated in the power supply unit 20 is supplied to the main board 10 .

The main board 10 operates as a standby power supply and performs a boot operation according to a power switch operation signal transmitted through the power switch state controller 110 to switch the computer back to the operating mode.

As described above, according to the present invention, the standby power is completely shut off according to the power consumption state in the off mode and the power saving mode of the computer, thereby achieving optimal power saving.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

The present invention is effectively applied to a technique for implementing optimal power saving by shutting off standby power even in an off mode in a computer having a built-in power supply.

10: Motherboard
20: Power supply
30: Power switch
100: Standby power control unit
101: Power input unit
102: Power output section
103: Power supply status analysis unit
104: Standby power detection unit
105: Standby power measurement unit
106: Power supply control unit
107: Power supply status controller
108: Standby power cutoff and supply unit
109: Power switch state detection unit
110: Power switch state controller
120:
121: Standby mode power control section
122: power saving mode power control unit
123:

Claims (9)

As an apparatus for reducing standby power,
A power supply unit for supplying power to the computer and a main board for controlling the overall operation of the computer, wherein when the operation mode of the computer is in an off mode or a power saving mode, And a standby power control unit for automatically reducing the standby power,
Wherein the standby power control unit includes a power control unit for performing standby power control and power saving mode control based on the detected power consumption of the main board, the status information of the power supply unit, and event information,
Wherein the power control unit detects the power consumption when the operation mode of the computer is operated in the power saving mode to determine the sustain state of the power saving mode and if the power saving mode is maintained for the first set time or longer, The computer is automatically switched to the shutdown state and switched to the off mode after the second set time period in the state of switching to the operating mode,
When the operation mode of the computer is in the off mode, the power consumption is detected to determine a continuous state of the off mode, and if the off mode is maintained for a third predetermined time or longer, Thereby reducing the power consumption of the apparatus.
delete delete The apparatus of claim 1, wherein the standby power controller includes: a standby power detector for detecting power consumption of the main board; A standby power supply power measuring unit for converting the power consumption detected by the standby power supply power detecting unit into digital power consumption data; And a power supply state analyzer for analyzing the state of the power supply device.
The apparatus of claim 1, wherein the power control unit comprises: a standby mode power controller for generating an event for standby power control based on a power consumption measurement result of the main board; A power saving mode power controller for generating an event for power saving mode control based on the power consumption measurement result; And a power operation unit for analyzing an operation mode and a power consumption state according to an event occurring in the standby mode power control unit and the power saving mode power control unit and controlling power operation according to the analyzed operation mode and power consumption state, A standby power control apparatus having a standby power saving function.
The standby power control unit may include a power supply controller for transmitting the power supply analysis information to the power controller in cooperation with the power controller, and outputting a power supply status control signal generated by the power controller; And a power supply state controller for controlling the state of the power supply by transmitting a power supply state control signal generated by the power supply controller to the power supply side, Device.
The standby power control unit may include a standby power cutoff and supply unit for supplying or blocking the standby power supplied to the main board according to the standby power control signal generated by the power control unit. The standby power control apparatus comprising:
The standby power control unit may include a standby power switch for shutting off or supplying the standby power supplied to the main board according to the standby power cutoff and control of the power supply unit. Control device.
The standby power control unit may include a power switch state sensing unit for sensing an operation state of the power switch provided in the main body; And a power switch state controller for transmitting a power switch operation signal to the main board.

Images