KR20040027242A - Computer system - Google Patents

Abstract

PURPOSE: A computer system is provided to make a user simply select wakeup through an input part. CONSTITUTION: A power supply(10) including an AC-DC converter receives/converts the commercial power from the outside into various voltage levels. A switching circuit(14) transfers the power to a system part(26), and the input part such as a keyboard(28a) and a mouse(28b) by switching the main power and a standby power supplied from the power supply. A standby mode maintenance switching part(30) selects the standby mode regardless of input from the input part during a standby mode. A power controlling part(22) controls the power supply and the switching circuit according to an input control signal.

Description

Computer system {COMPUTER SYSTEM}

The present invention relates to a computer system, and more particularly, to a computer system having a power control unit for controlling a power supply circuit so that an input through an input unit in standby mode converts standby power into a main power supply.

Most computer systems support a power saving mode to save power. An example of such a power management system is ACPI (Advanced Configuration and Power Interface).

According to the ACPI, the power management state of a computer system is largely defined as a six-sleeping state, SO-S5. The state of S0 is the normal state, the states S1 to S4 are the state in which the power consumption of the computer system is reduced step by step, and the state of S5 is the soft off state with all the power of the system cut off.

Here, the S3 state of the ACPI is for quick reuse of a computer system, and a normal booting process does not occur in an operation of switching to a normal state. In this state, power to the system memory, consisting of volatile memory, and other computer hardware devices other than the power management controller, is turned off. The process of entering the S3 state of the system is called 'suspend to ram'. During this process, data is stored in system memory during operation, and the ACPI S3 state is stored in the power management controller.

A power control block diagram of a computer system having such a power management function is shown in FIG. As shown in the figure, the power supply unit 110 of the computer system supports the ATX specification having a power supply structure separated into main power and standby power. The power supply unit 110 that supports the ATX standard always outputs standby power (5V_SB) when external commercial power is applied. This standby power is supplied to a power management controller (South Bridge) which is a power control unit 122 of the computer system.

In general, when a user is not using a computer by a power management operation such as ACPI, the power state of the computer system enters the state of S0 (normal mode) from the state of S3 (standby mode). At this time, the switching circuit 114 connected to the power supply 110 switches the main power 5V and the standby power 5V_SB supplied from the power supply 110. That is, the main power supplied in the normal mode is switched to the standby power, so that appropriate standby power is supplied to some hardware, for example, the system memory and input portions of the keyboard 128a, the mouse 128b, and the like.

On the other hand, in order to return the power state of the computer system to the state S0 (normal mode), the power switch 124 provided in the computer main body is pressed, or an input from a data input unit such as a keyboard 128a, a mouse 128b, or the like is pressed. Only possible when it occurs. When the user inputs through the input unit, the input signal is transmitted to the power control unit 122, and thus the power control unit 122 switches the switching circuit 114 of the power supply circuit so that standby power can be switched to the main power source. Control to wake up.

However, such a conventional computer system has a problem that wake-up occurs even when a slight impact is applied to the mouse 128b, the keyboard 128a, or the like during an S3 state (standby mode) or an unintended touch is performed. Of course, it is possible to limit the wake-up implementation through the input through the BIOS, but it is cumbersome to modify the BIOS setup manually if desired.

Accordingly, an object of the present invention is to provide a computer system in which a user can easily select whether to wake up through an input unit.

1 is a power control block diagram of a conventional computer system;

2 is a power control block diagram of a computer system according to the present invention;

3 is a flow chart of a power control of a computer system according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: power supply 12: regulator

14 switching circuit 16 switching driver

18: first switch 20: second switch

22: power control unit 24: power switch

26: system unit 28a: keyboard

28b: mouse 30: standby mode maintenance switching unit

The object of the present invention is to provide an input unit, a power supply circuit for supplying main power to all hardware in a normal mode, and supplying standby power to only some hardware in a standby mode, and an input through the input unit in the standby mode. A computer system having a power control section for controlling the power supply circuit to switch and supply the standby power to the main power supply, comprising: a standby mode holding switching for selecting a standby mode holding regardless of an input of the input unit in the standby mode; It is achieved by a computer system comprising a portion.

Here, the power supply circuit, the power supply for supplying the main power and standby power; It is preferable to include a switching circuit interposed between the power supply unit, the system unit and the input unit for transmitting the main power in the normal mode, and the standby power in the standby mode.

The power controller may control the power supply circuit to cut off the power supply to the input unit according to the selection of the standby mode holding switch in the standby mode, and select whether to wake up through the input unit.

The standby mode holding switching unit may be interposed between the power supply circuit and the input unit to block power supply to the input unit according to the standby mode holding selection of the standby mode holding switch unit in the standby mode. You can select whether to wake up.

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

2 is a power control block diagram of a computer system according to the present invention. As shown in this figure, a computer system according to the present invention includes a power supply unit 10 having an AC-DC converter (not shown) that receives an external commercial power source and converts it into voltage levels of various sizes, and a power supply unit ( 10, the switching circuit 14 for switching the main power and standby power supplied from the system to the inputs of the system unit 26 and the keyboard 28a, the mouse 28b, etc. A standby mode holding switching unit 30 for selecting the standby mode holding, and a power control unit 22 for controlling the power supply unit 10 and the switching circuit 14 according to the input control signal.

The power supply unit 10 supports an ATX specification having a power supply structure separated into main power and standby power. The power supply unit 10 that supports the ATX standard always outputs standby power (5V_SB) when external commercial power is applied. This standby power supply 5V_SB is supplied to the power supply control section 22 of the computer system so that the power supply control section 22 can always operate.

When the user presses the power switch 24 to use the computer system, the power control unit 22 provides a power on signal to the power supply unit 10 so that the power supply unit 10 outputs the main power. This allows the user to use the computer system. When the power supply unit 10 is applied to a portable computer, it receives power from an AC adapter or a battery and outputs main power and standby power.

The switching circuit 14 receives the main power supply and the standby power supply from the power supply unit 10 and supplies the dual power to the system unit 26 and the input unit by the switching driver 16 and the first and second switches 18 and 20. 28a, 28b). When the system is in the normal mode, the switching driver 16 turns on the first switch 18 to deliver the appropriate main power to the entire hardware of the system 26 and the inputs 28a and 28b, respectively. For example, the input units 28a and 28b receive 5V main power. On the other hand, when the system is in the standby mode, the switching driver 16 turns on the second switch 20 so that the 3.3V main power converted by the regulator 12 is supplied to the memory of the system unit 26. The standby units 5V_SB output from the switching circuit 14 are supplied to the input units 28a and 28b.

The power control unit 22 has a power management function that outputs a power control signal for controlling the power supply circuit in accordance with a power command command provided from the central processing unit. The power control unit 22 receives a power saving command from a central processing unit that outputs a power saving command in accordance with various power states SO, S3, S4, and S5 according to the ACPI specification. In the normal mode, the power control unit 22 controls the switching circuit 14 to supply the main power by a normal power command output from the central processing unit, and is fixed from inputs such as the keyboard 28a and the mouse 28b. When there is no time input signal, the power supply controller 22 controls the switching circuit 14 to supply standby power by the S3 power saving command output from the central processing unit.

When an input from an input unit such as a keyboard 28a, a mouse 28b, or the like is generated to switch the system to the normal mode, the power supply controller 22 controls the switching circuit 14 to output the main power.

The standby mode holding switching unit 30 is used to selectively supply the main power to the system by the inputs from these input units 28a and 28b in the standby mode. When the standby mode holding is selected through the standby mode holding switching unit 30, the power control unit 22 causes the switch 32 located at the power line connected to the input units 28a and 28b to be turned off so that the input units 28a and 28b are turned off. Shut off the standby power supply to). Therefore, wakeup through the inputs 28a and 28b does not occur. If the user wants to wake up again through the input units 28a and 28b, the standby mode is released through the standby mode holding switching unit 30 so that standby power is supplied to the input units 28a and 28b. The wakeup via the input units 28a and 28b is enabled. That is, the power control unit 22 controls the switching circuit 114 by the input signals through the input units 28a and 28b to supply the main power to the system unit 126.

Meanwhile, even when the standby mode holding switching unit 30 is pressed in the normal mode, the power controller 22 determines that the power state of the system is in the normal mode and ignores the switching signal of the standby mode holding switching unit 30. The main power is supplied to the unit 26 and the input units 28a and 28b.

3 shows a power control flow chart of the computer system having such a configuration. As shown in this figure, a user first makes a standby mode holding selection through the standby mode holding switching unit 30 (S10). The power controller 22 determines whether the power state of the system is in the standby mode (S12). If the system is in the standby mode, the standby power supplied to the input units 28a and 28b is turned off (S14). Accordingly, the switch to the normal mode is not performed through the input units 28a and 28b (S18) and the standby mode is maintained (S22). On the other hand, when the system is in the normal mode, the main power is supplied to the input units 28a and 28b regardless of the standby mode holding selection through the standby mode holding switching unit 30 (S16). Thus, the normal operation of the input unit 28a, 28b is performed (S20).

Although not shown, when the standby mode holding release is selected through the standby mode holding switching unit 30, power is normally supplied to the input units 28a and 28b. Thus, the switch to the normal mode through the input unit (28a, 28b) can be made.

Accordingly, it is possible to select whether to wake up through the input units 28a and 28b according to the selection of the standby mode holding switching unit 30.

Meanwhile, in the above-described embodiment, the standby mode holding switching unit 30 may be provided in the computer body.

Meanwhile, in the above-described embodiment, the power control unit 22 controls the switch 32 connected to the power lines of the input units 28a and 28b according to the switching selection of the standby mode holding switching unit 30. Of course, the holding switching unit 30 may be provided as a mechanical switch. At this time, a switch is provided on the power supply line supplied to the input units 28a and 28b, and the switch is connected to the switch of the computer main unit to turn on or off the switch connected to the internal power supply line simply by pressing the switch on the computer main unit. In this case, power to the input units 28a and 28b may be turned on or off.

Meanwhile, in the above-described embodiment, the power supply to the input units 28a and 28b is cut off according to the selection of the standby mode holding switching unit 30 in the standby mode, so that the user can select whether to wake up. According to the selection of the unit 30, the input signals of the input units 28a and 28b may be blocked to select whether to wake up or not.

Meanwhile, in the above-described embodiment, 3.3V is supplied to the system unit 26, but the present invention is not limited thereto, and voltage levels required for various components of the system unit 26 may vary.

As described above, the present invention includes the standby mode holding switching unit 30 for selecting the standby mode holding regardless of the input of the input unit 28a, 28b in the standby mode, so that the user can easily operate the input unit 28a, 28b. Allows you to choose whether to wake up.

As described above, according to the present invention, a computer system in which a user can easily select whether to wake up through an input unit is provided.

Claims (4)

An input unit, a power supply circuit for supplying main power to all hardware in a normal mode, and supplying standby power to only some hardware in a standby mode, and an input through the input unit in the standby mode converts the standby power into the main power source In a computer system having a power control unit for controlling the power supply circuit to supply by And a standby mode holding switching unit for selecting the standby mode holding regardless of the input of the input unit in the standby mode. The method of claim 1, The power supply circuit includes a power supply unit for supplying main power and standby power; And a switching circuit interposed between the power supply unit, the system unit and the input unit to transfer the main power in the normal mode and the standby power in the standby mode. The method of claim 1, And the power control unit controls the power supply circuit to cut off power supply to the input unit according to selection of the standby mode holding switching unit in the standby mode. The method of claim 1, And the standby mode holding switching unit is interposed between the power supply circuit and the input unit to block power supply to the input unit according to the standby mode holding selection of the standby mode holding switching unit in the standby mode. .