KR20080076595A - Electronic apparatus and power control method thereof - Google Patents

Abstract

An electronic apparatus and a power control method thereof are provided to reduce standby power consumption by allowing a power supply unit to supply standby power to a main control unit according to control of an auxiliary control unit when receiving a power supply signal from a power input unit. An electronic apparatus(100) includes a system unit(10), a power supply unit(20), a main control unit(30), a power input unit(40), a battery unit(50), and an auxiliary control unit(60). The system unit performs at least one operation. The power supply unit supplies system power to the system unit. The main control unit receives standby power from the power supply unit and controls the power supply unit to supply the system power to the system unit. The power input unit controls the main control unit so that the power supply unit supplies the system power to the system unit. The battery unit supplies battery power smaller than the standby power. The auxiliary control unit controls the power supply unit to supply the standby power to the main control unit when detecting operation of the power input unit by receiving the battery power from the battery unit.

Description

ELECTRICAL APPARATUS AND POWER CONTROL METHOD THEREOF

1 is a block diagram of an electronic device according to an embodiment of the present invention.

2 is a flowchart illustrating a power control method of an electronic device according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: system unit 20: power supply unit

30: main controller 40: power input unit

50: battery unit 60: auxiliary control unit

100: electronic device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic device and a power control method thereof, and more particularly, to an electronic device and a power control method for saving power consumed in a power standby state.

The electronic device receives power through a power cable connected to an outlet. The power input from the outlet shall be alternating current and the power used in the actual electronics shall be direct current. Therefore, the power supply in the electronic device should receive the AC current from the outlet and convert it into DC current.

In general, a user can supply power to an electronic device by using a power button provided in a case of a remote control device or an electronic device such as a remote controller connected to a power cable to an outlet. When the user instructs the power supply by using the remote control device or the power button, the microprocessor of the electronic device must receive the power supply signal transmitted by the remote control device or the power button. In order to receive a power supply signal, the microprocessor must receive power from a power supply. The power supply unit is called a switching mode power supply (SMPS), and the power supplied by the SMPS to the microprocessor is called standby power. With the power cable connected to the outlet, the SMPS must supply standby power to the microprocessor at all times, and the microprocessor must receive standby power to receive power supply signals from the remote control or the power button.

As described above, in order for the control unit to receive a power supply signal from the command input unit in the conventional electronic device, when the power cable is connected to the outlet, standby power must be continuously supplied from the power supply unit. Economic losses increase with increasing types and quantities of electronic devices.

Accordingly, an object of the present invention is to provide an electronic device and a power supply control method thereof for saving power consumed by a standby power source.

In order to achieve the above object, the present invention provides an electronic device, comprising: a system unit performing at least one operation, a power supply unit supplying system power to the system unit, and receiving standby power from the power supply unit; A main control unit for controlling the power supply unit to supply power, a power input unit for supplying system power to the system unit, a battery unit for supplying battery power smaller than the standby power source, and a power input unit receiving battery power from the battery unit If it detects that the operation, and includes a secondary control unit for controlling the power supply to supply standby power to the main control.

Here, the system power source is not smaller than the standby power source.

The main controller controls the power supply unit to adjust power supplied to the system unit based on a plurality of power modes including the system power source and the standby power source.

The above object of the present invention, the system unit performing at least one operation, the power supply unit for supplying system power to the system unit, the standby power supply from the power supply unit to control the power supply unit to supply the system power to the system unit A power control method of an electronic device including a main control unit and a power input unit for supplying system power to a system unit, the method comprising: monitoring whether a power input unit operates by receiving battery power smaller than standby power from a battery; In response to detecting that the power input unit is operating, the method may also be achieved by a method for controlling a power supply of an electronic device including controlling the power supply unit to supply standby power to the main control unit.

The system power source is characterized in that not less than the standby power source.

The main controller controls the power supply unit to adjust power supplied to the system unit based on a plurality of power modes including the system power source and the standby power source.

1 is a block diagram of an electronic device 100 according to an embodiment of the present invention.

As shown in FIG. 1, the electronic device 100 according to the present invention includes a system unit 10, a power supply unit 20, a main control unit 30, a power input unit 40, and a battery unit 50. ) And the auxiliary control unit 60.

After receiving the system power from the power supply unit 20, the system unit 10 performs at least one operation under the control of the main controller 30. The operation performed by the system unit 10 includes operations such as processing analog or digital signals and outputting processed signals.

The power supply unit 20 supplies system power to the system unit 10. The power supply unit 20 supplies standby power to the main control unit 30 as well as the system power. The power supply unit 20 may supply power to other circuit elements included in the electronic device 100 in addition to the system unit 10 and the main controller 30.

The main control unit 30 controls the power supply unit 20 to supply power to the system unit 10 after receiving standby power from the power supply unit 20. In this case, the main controller 30 controls the power supply unit 20 to transmit a signal including information indicating standby power supply to the power supply unit 20. The method of transmitting a signal is just an example, and another method may be used.

The main controller 30 not only controls the power supply unit 20 but also controls the system unit 10. That is, the main controller 30 may control the system unit 10 to perform at least one operation. Since the main controller 30 receives the standby power from the power supply unit 20, including the system unit 10, the power supply unit 20, the power input unit 40, the battery unit 50, and the auxiliary control unit 60. You can control other components.

The power input unit 40 instructs the main control unit 30 to supply the system power to the system unit 10 by the power supply unit 20. The power input unit 40 may instruct the main controller 30 to use a predetermined signal. The power input unit 40 may be a remote controller such as a remote controller, and may be provided in one region of a case of the electronic device 100. The power input unit 40 includes a power button for applying power to the electronic device 100. When the user presses the power button, the power input unit 40 sends a signal corresponding to the power button to the auxiliary controller 60. Send. At this time, the auxiliary control unit 60 receives battery power from the battery unit 50 to receive a signal corresponding to the power button. The auxiliary control unit 60 receives the signal corresponding to the power button from the power input unit 40, and then controls the power supply unit 20 to supply standby power to the main control unit 30. The auxiliary control unit 60 controls the power supply unit 20 to transmit a signal instructing the system unit 10 to supply system power to the main control unit 30. After receiving the standby power from the power supply unit 20, the main controller 30 receives a signal indicating the system power supply from the auxiliary controller 60, and then supplies the system power to the system unit 10. ).

The battery unit 50 supplies battery power smaller than standby power to the auxiliary control unit 60. The auxiliary control unit 60 supplied with the battery power monitors the power input unit 40 to detect that the power input unit 40 is operating. When the user presses the power button of the power input unit 40, the battery unit 50 supplies the battery power so that the auxiliary control unit 60 can receive a predetermined signal from the power input unit 40. The battery unit 50 may be charged by the power supplied from the power supply unit 20, and is discharged by supplying the battery power to the auxiliary control unit 60.

The auxiliary control unit 60 receives battery power from the battery unit 50 even when the power supply unit 20 does not supply power to the system unit 10. The reason why the auxiliary control unit 60 should be supplied with battery power is that the power input unit 40 needs to be sensed to operate. That is, when the user presses the power button of the power input unit 40, the power input unit 40 transmits a signal indicating power supply to the auxiliary control unit 60. At this time, if power is not supplied to the auxiliary control unit 60, the auxiliary control unit 60 cannot receive a signal for power supply and as a result, cannot supply power to the system unit 10.

When the auxiliary control unit 60 receives the battery power from the battery unit 50 that is smaller than the standby power, and receives a signal for power supply from the power input unit 40, the auxiliary control unit 60 supplies the standby power to the main control unit 30. To control the power supply unit 20 to. In this case, the auxiliary control unit 60 instructs the power supply unit 20 to supply standby power to the main controller 30 by transmitting a signal including information for supplying standby power. In addition to transmitting a signal, a flag or the like may be used. The power supply unit 20 receives a signal instructing to supply standby power to the main control unit 30 from the auxiliary control unit 60, and supplies the standby power to the main control unit 30. The main controller 30 receives a predetermined signal from the auxiliary control unit 60 to control the power supply unit 20 to supply the system power to the system unit 10 after receiving the standby power. The main controller 30 controls the power supply unit 20 to supply system power to the system unit 10 after receiving the predetermined signal. At this time, the main controller 30 controls the power supply unit 20 as a method of transmitting a signal or using a flag. The system unit 10 receives system power from the power supply unit 20 and then performs a predetermined operation under the control of the main control unit 30.

Hereinafter, the features of the present invention will be described in more detail with reference to an embodiment of the electronic device 100 according to the present invention.

The electronic device 100 according to the present invention describes the computer device 100 as an example.

The computer device 100 has only a power cable connected to an outlet through the power supply unit 20 and is in a power OFF state in which power is not supplied to the system unit 10. At this time, the user presses the power input unit 40 provided in the case of the computer device 100. At this time, the auxiliary control unit 60 detects that the button of the power input unit 40 is pressed. The auxiliary controller 60 can detect that the power input unit 40 is pressed because the battery power is supplied from the battery unit 50. That is, since the auxiliary control unit 60 must sense the moment of pressing even if the user does not press the power input unit 40, the auxiliary control unit 60 should always be supplied with battery power from the battery unit 50. At this time, the power supplied by the battery power supply unit 20 is small.

When the auxiliary control unit 60 detects that the power input unit 40 is operating, the power supply unit 20 is controlled to supply standby power to the main control unit 30. The auxiliary control unit 60 transmits a predetermined signal to the main control unit 30 so that the power supply unit 20 supplies power to the system unit 10.

The main controller 30 controls the power supply unit 20 to supply system power to the system unit 10 after receiving the predetermined signal.

The power supply unit 20 supplies system power to the system unit 10 under the control of the main controller 30.

Here system power is not less than standby power. And battery power is less than standby power.

The system unit 10, which is supplied with system power, performs a predetermined operation under the control of the main controller 30. In this case, the operation may be driving of an application program, or an operation of outputting an image signal and an audio signal.

The main controller 30 may control power consumed according to a plurality of power modes including standby power and system power based on the operating state of the system 10.

2 is a flowchart illustrating a power control method of the electronic device 100 according to an embodiment of the present invention.

As illustrated in FIG. 2, in the power control method of the electronic device 100, the controller 60 receives battery power smaller than standby power from a battery and monitors whether the power input unit 40 operates (see FIG. 2). S10). When the controller 60 detects that the power input unit 40 operates, the controller 60 controls the power supply unit 20 to supply standby power to the main control unit 30.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that modifications may be made to the embodiment without departing from the spirit or spirit of the invention. will be. It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

As described above, the electronic device and the power control method thereof according to the present invention can save power consumed while waiting to receive a power supply instruction command.

Claims (6)

In the electronic device, A system unit for performing at least one operation; A power supply unit supplying system power to the system unit; A main control unit which receives the standby power from the power supply unit and controls the power supply unit to supply system power to the system unit; A power input unit for supplying the system power to the system unit; A battery unit for supplying battery power smaller than the standby power source; And an auxiliary controller configured to control the power supply unit to supply standby power to the main control unit when the power input unit is detected when the battery power is supplied from the battery unit. The method of claim 1, And the system power source is not less than the standby power source. The method according to claim 1 or 2, And the main control unit controls the power supply unit to adjust power supplied to the system unit based on a plurality of power modes including the system power source and the standby power source. A system unit performing at least one operation, a power supply unit supplying system power to the system unit, a main control unit controlling the power supply unit to supply system power to the system unit by receiving standby power from the power supply unit, and the system unit In the power control method of an electronic device comprising a power input for supplying system power to the system, Monitoring whether the power input unit is operated by receiving a battery power smaller than the standby power from a predetermined battery; And controlling the power supply unit to supply standby power to the main control unit when the power input unit detects operation of the power input unit. The method of claim 4, wherein And the system power source is not smaller than the standby power source. The method according to claim 4 or 5, And the main control unit controls the power supply unit to adjust power supplied to the system unit based on a plurality of power modes including the system power and the standby power.

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