KR102455062B1 - Standby power control method of computer - Google Patents

Abstract

It relates to an apparatus and method for controlling standby power for a computer that can reduce power consumption by controlling standby power according to the operation state of a power switch and the USB use state of a mainboard USB connector, and the standby power supply when main power is supplied. It determines the operating mode of the computer body through the supply or not or the mode signal provided from the computer body, and if the standby power is cut off in green mode, the standby power It controls the supply and cut-off of the computer, and when the operating mode of the computer is in the off mode, the power consumption of the computer is reduced by controlling the supply and cut-off of standby power using the USB power sensed through the USB connection unit.

Description

Standby power control method of computer

The present invention relates to control of standby power of a computer, and more particularly, to a method for controlling standby power of a computer so that power consumption can be reduced by controlling standby power according to the operation state of a power switch and the USB use state of a mainboard USB connector. will be.

Most electrical products such as desktop computers and portable computers, monitors, and televisions are provided with a power supply, and SMPS is mainly used as the power supply device.

SMPS is a modular power supply that converts alternating current (AC) electricity supplied from commercial power to fit various devices such as computers, communication devices, and home appliances. Intermittent control at high frequency using high-speed power semiconductors and stable DC voltages are obtained through rectification and smoothing circuits.

Such a power supply can respond to surge voltage or overvoltage/overcurrent, but it is impossible to control the standby power of the main body by analyzing various situations of the computer body by itself.

On the other hand, a device using standby power, that is, a device such as a computer, manages standby power by using a software method on the motherboard. This motherboard manages standby power by the standby power management method initially set in the firmware or set by the updated firmware, and implements power saving by reducing power consumption through the standby power management method.

However, this method of managing standby power by software through firmware or the like has disadvantages in that it is difficult to optimally manage standby power when the main board is changed because the standby power management method is different for each mainboard model, as well as malfunctioning. That is, since the standby power management method is different for each main board model, when the main board is changed, the optimal standby power management becomes difficult due to compatibility problems with peripheral devices and causes malfunction.

In addition, in the method of managing standby power by software through firmware, etc., the standby power management method is different depending on the Windows update version. have.

Meanwhile, a technology for optimizing standby power in a computer is disclosed as a prior art in Korean Patent Registration No. 10-1805879.

The disclosed prior art relates to a technology for optimizing standby power in a standby mode of a main board of a computer and a power supply supplied thereto, and supplies a minimum amount of power only to a place that necessarily needs power even in standby mode and furthermore, an unnecessary device The standby power is optimized by stopping the operation of Save energy.

Since this prior art also adds a PIC and controls standby power through software, when the main board is changed or the version is changed through Windows update, the method of controlling standby power is also different, making optimal standby power control impossible. , in addition, there is a disadvantage that may cause a malfunction in standby power control due to compatibility problems with peripheral devices if the main board is changed.

Republic of Korea Patent 10-1805879 (Registered on November 30, 2017) (Energy saving device and method of computer system using MPSC control signal)

Therefore, the present invention has been proposed to solve the problems occurring in the general computer system and the prior art as described above, and it reduces power consumption by controlling standby power according to the operation state of the power switch and the USB use state of the mainboard USB connector. An object of the present invention is to provide a method for controlling the standby power of a computer so that it can be saved.

In order to achieve the above object, "a computer standby power control device" according to the present invention, a power switch connection unit connected to the power line of the power switch to detect the impedance of the power line; a USB connector coupled to the USB connector of the main board to sense the power of the USB connector; The operation mode of the computer is determined by the supply of standby power supplied to the computer body, and if the determined operation mode of the computer is the green mode in which the standby power is cut off, the on/off state signal of the power switch detected through the power switch connection unit is displayed. It controls the supply and cut-off of standby power using a mode signal provided from the computer body, and when the operating mode of the computer is in the off mode, the supply and cut-off of standby power is controlled using the USB power sensed through the USB connection unit. It is characterized in that it includes a power supply.

If the operation mode of the computer determined by the power supply unit is the green mode, the impedance of the power line of the power switch detected through the power switch connection unit is checked to determine the on or off state of the power switch, and as a result of checking the state of the power switch, the power switch 5VSB standby power is supplied to the microcomputer when it is confirmed that the device has been operated from the off state to the on state. a control unit that blocks and operates the microcomputer in a low power mode; It characterized in that it comprises a standby power supply / cut-off unit for supplying or blocking standby power according to the control of the control unit.

In order to achieve the above object, "a method for controlling standby power of a computer" according to the present invention, (a) in a state in which main power is supplied, whether or not standby power is supplied or a mode signal provided from the computer body determining the operating mode of the main body; (b) controlling supply and cut-off of standby power by using the on/off state signal of the power switch detected through the power switch connection unit if the green mode in which the standby power is cut off as a result of the determination in step (a); (c) if it is determined in step (a) that the operating mode of the computer is the off mode, controlling the supply and cut-off of standby power using the USB power sensed through the USB connection unit.

In step (b), if the determined operation mode of the computer is the green mode, the impedance of the power line of the power switch detected through the power switch connection unit is checked to confirm the on or off state of the power switch, and the state of the power switch is checked As a result, if it is confirmed that the power switch has been operated from the OFF state to the ON state, 5VSB standby power is supplied to the microcomputer.

In step (c), if the determined operation mode of the computer is the off mode, the USB power detected through the USB connection unit is checked, and if it is below the set level, the 5VSB standby power is cut off.

According to the present invention, by controlling the standby power through the power switch operation state and the main board USB power detection, it is possible to prevent the standby power control malfunction even when the model of the main board or the Windows update version is changed in the computer system. Standby power control through board USB power detection has the effect of saving power by operating the microcomputer, which is the CPU, in low power mode during off mode.

1 is a block diagram of an apparatus for controlling standby power of a computer according to the present invention;
2 is a flowchart illustrating a method for controlling standby power of a computer according to the present invention.

Hereinafter, a method for controlling standby power of a computer according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The terms or words used in the present invention described below should not be construed as being limited to conventional or dictionary meanings, and the inventor may appropriately define the concept of terms in order to best describe his invention. It should be interpreted as meaning and concept consistent with the technical idea of the present invention based on the principle that it can be.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents and It should be understood that there may be variations.

1 is a block diagram of a standby power control device for a computer according to the present invention, including a power switch connection unit 40 , a USB connection unit 50 , a power switch 20 , a main board 30 and a power supply unit 10 . do.

The power switch 20 is provided in the main body of the computer and refers to a switch for supplying or blocking power to the main body, and the main board 30 refers to a main board generally provided in a computer system. The main board 30 may be provided with a USB connector 31 for USB connection.

The power switch connection unit 40 is connected to the power line of the power switch 20 and serves to sense the impedance of the power line that is changed according to the operation of the power switch 20 .

The USB connector 50 is coupled to the USB connector 31 of the main board 30 and serves to sense the power of the USB connector 31 .

The power unit 10 determines the operation mode of the computer based on whether standby power supplied to the computer body is supplied or not, and if the determined operation mode of the computer is the green mode in which the standby power is cut off, the power detected through the power switch connection unit 40 The on/off state signal of the switch 20 is used to control the supply and cut-off of standby power, and when the mode signal provided from the computer body is the off mode of the computer, the USB power detected through the USB connection unit 50 is used. It plays a role in controlling the supply and cut-off of standby power.

The power supply unit 10 may use a power supply unit (SMPS) that is built-in in a computer system and supplies power.

The power supply unit 10 checks the impedance of the power line of the power switch 20 sensed through the power switch connection unit 40 when the operation mode of the computer is green mode to turn the power switch 20 on or off. Check the (off) state, and if it is confirmed that the power switch 20 has been operated from the off state to the on state as a result of checking the state of the power switch 20, 5VSB standby power is supplied to the microcomputer (CPU), and the operation mode of the computer In the off mode, the controller 12, which operates the microcomputer in a low-power mode by checking the USB power detected through the USB connection unit 50 It may include a standby power supply/block unit 11 for supplying or blocking standby power.

The operation of the standby power control device of the computer according to the present invention configured as described above will be described in detail as follows.

First, a 4-pin power cable connected between the power supply unit 10 and the main board 30 is made into a 2-pin + 2-pin dual cable, and the 2-pin cable is used for sensing the power switch 20, and the 2-pin cable is It is used to detect the mainboard USB power.

A power switch connection part 40 is provided at one end of the 2-pin cable used for sensing the power switch 20 , and the provided power switch connection part 40 is connected to the power line of the power switch 20 . When the power switch 20 is turned on or off, a change in impedance occurs in the power line, and the impedance changed according to the operation of the power switch 20 is sensed by the power switch connection unit 40 and applied to the power supply unit 10 . delivered in real time. In general, when the power switch 20 is operated from an off state to an on state, a change in impedance of the power line occurs.

In addition, a USB connection unit 50 is provided at one end of the 2-pin cable for detecting the USB power of the main board, and the USB connection unit 50 is connected to the USB connector 31 provided on the main board 30 . When the USB connector 50 is connected to the USB connector 31 of the main board 30 , it senses the power of the USB connector, that is, the USB power, and transmits it to the power supply unit 10 . Here, when the main board 30 and the USB device are connected and the main board 30 reads or stores data from the USB device, the USB power source (VSB) of a low level (power of 1.7V or less) is detected. If a USB device is not connected to the main board 30 or is not used, a high level (5V) USB power (5VSB) is detected.

The power supply unit 10, which is a power supply device, interlocks with the standby power supply/block unit 11 to check whether standby power is currently supplied to the computer body or is in a blocked state. As a result of the above check, if the standby power of the computer body is cut off, it is determined that the operation mode of the computer is the green mode using 0.1W of power consumption. In the green mode, the on or off state of the power switch 20 is recognized by checking the power line impedance of the power switch 20 detected through the power switch connection unit 40 . As a result of this check, if there is no change in the power line impedance of the power switch 20, the current state of the power switch 20 is recognized as the off state, and the current state is maintained. On the other hand, if the power line impedance of the power switch 20 is changed, it is determined that the power switch 20 has been operated from the OFF state to the ON state, and 5VSB standby power is supplied to the microcomputer through the standby power supply/cutoff unit 11 . (CPU) to be supplied. The microcomputer performs a power boot sequence when standby power is supplied.

On the other hand, when the standby power is supplied to the main body of the computer, the control unit 12 of the power supply unit 10 determines the operating mode of the computer through a mode signal transmitted from the computer main body. Here, it is assumed that an operation mode of the computer, that is, an operation mode signal, can be interfaced between the computer main body and the power supply unit 10 . When it is determined that the determined operation mode of the computer is the off mode, the control unit 12 checks the USB power detected through the USB connection unit 50 and cuts off the 5VSB standby power if it is below the set level (less than 1.7V) to turn off the microcomputer. Operate in low power mode. In addition, if the detected USB power is higher than the set level (3V or higher), it is determined that the microcomputer and the USB device interface data through communication, and the current state, that is, the standby power supply state is maintained.

In this way, when the computer body is operated in green mode using 0.1W power consumption, it determines the operation status of the power switch through impedance sensing of the power switch to control the supply of standby power, and standby power is supplied to the computer body. When the main body of the computer is operated in off mode, the microcomputer's standby power (5VSB) is cut off to operate the microcomputer in a low power mode to reduce power consumption due to the shutdown of the standby power.

The standby power supply/block unit 11 serves to supply or block standby power to the computer body or microcomputer (CPU) according to the control of the control unit 12 .

2 is a flowchart showing "a method for controlling standby power of a computer" according to the present invention. Steps of determining the operating mode of the computer body through the mode signal (S101 - S102), (b) If the green mode in which the standby power is cut off as a result of the determination of the step (a) in the control unit 12 (power consumption 0.1W) ), controlling the supply and cut-off of standby power using the on/off state signal of the power switch 20 detected through the power switch connection unit 40 (S103 - S106), (c) the control unit 12 In step (a), if the operation mode of the computer is the off mode as a result of the determination in step (a), control the supply and cut-off of standby power using the USB power sensed through the USB connection unit 50 (S107 - S110).

In step (b), if the determined operation mode of the computer is the green mode, the on or off state of the power switch 20 is determined by checking the impedance of the power line of the power switch 20 detected through the power switch connection unit 40 . After checking, if it is confirmed that the power switch 20 has been operated from the OFF state to the ON state as a result of checking the state of the power switch 20, 5VSB standby power can be supplied to the microcomputer.

In addition, in step (c), if the determined operation mode of the computer is the off mode, the USB power detected through the USB connection unit 50 is checked, and if it is below the set level, the 5VSB standby power is cut off to operate the microcomputer in a low power mode.

A method for controlling standby power of a computer according to the present invention configured as described above will be described in detail as follows.

First, a 4-pin power cable connected between the power supply unit 10 and the main board 30 is made into a 2-pin + 2-pin dual cable, and the 2-pin cable is used for sensing the power switch 20, and the 2-pin cable is It is used to detect the mainboard USB power.

A power switch connection part 40 is provided at one end of the 2-pin cable used for sensing the power switch 20 , and the provided power switch connection part 40 is connected to the power line of the power switch 20 . When the power switch 20 is turned on or off, an impedance change occurs in the power line, and the impedance changed according to the operation of the power switch 20 is sensed by the power switch connection unit 40 and applied to the power supply unit 10 . delivered in real time. In general, when the power switch 20 is operated from an off state to an on state, a change in impedance of the power line occurs.

In addition, a USB connection unit 50 is provided at one end of the 2-pin cable for detecting the USB power of the main board, and the USB connection unit 50 is connected to the USB connector 31 provided on the main board 30 . When the USB connector 50 is connected to the USB connector 31 of the main board 30 , it senses the power of the USB connector, that is, the USB power, and transmits it to the power supply unit 10 . Here, when the main board 30 and the USB device are connected and the main board 30 reads or stores data from the USB device, the USB power source (VSB) of a low level (power of 1.7V or less) is detected. If a USB device is not connected to the main board 30 or is not used, a high level (5V) USB power (5VSB) is detected.

The power supply unit 10, which is a power supply device, is in a state in which main power is supplied (S101), interlocked with the standby power supply/block unit 11 as in step S102, and whether standby power is currently supplied to the computer body or is blocked. check cognition

As a result of the check, if the standby power of the computer body is cut off, the process moves to step S103 and it is determined that the operation mode of the computer is the green mode using 0.1W of power consumption. In the green mode, the on or off state of the power switch 20 is recognized by checking the power line impedance of the power switch 20 sensed through the power switch connection unit 40 as in step S104. As a result of this check, if there is no change in the power line impedance of the power switch 20, the current state of the power switch 20 is recognized as the off state, and the current state is maintained. On the other hand, if the power line impedance of the power switch 20 changes, it is determined that the power switch 20 has been operated from the off state to the on state, and the process moves to step S105 and passes through the standby power supply/cutoff unit 11 . 5VSB standby power is supplied to the microcomputer (CPU). Next, in step S106, the microcomputer performs a power booting sequence when standby power is supplied.

On the other hand, when the standby power is supplied to the main body of the computer, the control unit 12 of the power supply unit 10 determines the operating mode of the computer through the mode signal transmitted from the computer main body as in step S107. Here, it is assumed that an operation mode of the computer, that is, an operation mode signal, can be interfaced between the computer main body and the power supply unit 10 . When it is determined that the determined operation mode of the computer is the off mode, the controller 12 moves to step S108 and checks the USB power sensed through the USB connection unit 50. If it is below the set level (less than 1.7V), step S109 and S110, the 5VSB standby power is cut off to operate the microcomputer in a low power mode. In addition, if the detected USB power is higher than the set level (3V or higher), it is determined that the microcomputer and the USB device interface data through communication, and the current state, that is, the standby power supply state is maintained.

As described above, the present invention controls the supply of standby power by determining the operation state of the power switch through impedance sensing of the power switch when the computer body is operated in green mode using 0.1W power consumption, and standby power is supplied to the computer body. When the computer body is operated in the off mode while the power is supplied, the microcomputer's standby power (5VSB) is cut off to operate the microcomputer in a low power mode to reduce power consumption due to the standby power cutoff.

Although the invention made by the present inventor has been described in detail according to the above embodiment, the present invention is not limited to the above embodiment and it is common knowledge in the art that various changes can be made without departing from the gist of the present invention. self-evident to those who have

10: power supply
11: Standby power supply/disconnection part
12: control
20: power switch
30: main board
31: USB connector
40: power switch connection
50: USB connection

Claims (5)

delete delete The power switch connection part connected to the power line of the power switch to detect the impedance of the power line, the USB connection part coupled to the USB connector of the main board to detect the power of the USB connector, and the presence or absence of standby power supplied to the computer body. If the operation mode is determined, and the determined operation mode of the computer is the green mode in which the standby power is cut off, the on/off state signal of the power switch detected through the power switch connection unit is used to control the supply and cut-off of the standby power, and the computer When the operation mode of the computer is in the off mode through the mode signal provided from the main body, using the standby power control device of the computer including a power supply unit for controlling the supply and cut-off of standby power using the USB power sensed through the USB connection unit. A method of controlling the standby power of a computer, comprising:
(a) In a state in which main power is supplied, a 4-pin power cable connected between the power supply unit and the main board is made into a 2-pin + 2-pin dual cable, and the 2-pin cable is used for sensing the power switch, and the 2-pin The cable is used for detecting the USB power of the motherboard, and determining the operating mode of the computer body through the presence or absence of power standby power or a mode signal provided from the computer body;
(b) As a result of the determination in step (a), if the standby power is cut off in the green mode, the standby power is supplied based on the on/off state signal of the power switch detected through the power switch connection unit using the 4-pin power cable. and controlling blocking; and
(c) if the operation mode of the computer is the off mode as a result of the determination in step (a), controlling the supply and cut-off of standby power based on the USB power sensed through the USB connection using the 4-pin power cable. do,
In step (b), if the determined operation mode of the computer is the green mode, the impedance of the power line of the power switch sensed through the power switch connection part is checked to confirm the on or off state of the power switch, and the status of the power switch is checked If it is confirmed that the power switch has been operated from the OFF state to the ON state, 5VSB standby power is supplied to the microcomputer.
In the step (c), if the determined operation mode of the computer is the off mode, the USB power detected through the USB connection unit is checked, and if it is below the set level, the 5VSB standby power is cut off to operate the microcomputer in a low power mode. Standby power control method.






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