KR20080032358A - Apparatus and method for power supply control of system - Google Patents

Abstract

A device and a method for controlling power supply of a system are provided to supply main or sub power having a different voltage level selectively according to power consumption of the system, and reduce the power consumption by increasing conversion efficiency of a converter. A PSU(Power Supply Unit)(10) supplies a plurality of power having a different voltage level to a system(40). A switch(20) opens and closes a supply path of main and sub power of the PSU. A resistor(R1,R2) is connected to each power output terminal to detect a current value. A control IC(30) enables the switch to supply the main or sub power selectively to the system according to a result comparing the power consumption, which is calculated by using the current value of the main and sub power in a state that the sub power is supplied always, with preset reference power. The PSU includes a first power supply line supplying the sub power always and a second power supply line distributing/supplying the sub power in a standby mode of the system.

Description

Power supply control device and method of system {APPARATUS AND METHOD FOR POWER SUPPLY CONTROL OF SYSTEM}

1 is a block diagram showing a power supply control apparatus of a system according to an embodiment of the present invention.

2 is a flowchart illustrating a step-by-step method for controlling power supply of a system according to an exemplary embodiment of the present invention.

`` Explanation of symbols for main parts of drawings ''

10: power supply 20: switching unit

30: control IC 40: system

41: power control module 42: DC-DC converter

R: Resistor FET: Switch (Field Effect Transistor)

VL: Power Supply Line

The present invention relates to a power supply apparatus, and more particularly, to a power supply control apparatus and method for a system for selectively supplying power having different voltage levels according to the power consumption of the system.

Electronic devices, such as desktop computers and digital TVs, whose power consumption varies greatly with operation, are supplied with an auxiliary power supply along with the main power supply to supply standby power when the system is waiting. That is, in an operation mode and a standby mode where power consumption is high, such as when recording a hard disk or watching a broadcast, the desktop computer or the digital TV supplies the main power supply and the auxiliary power supply, and the sleep mode and the off mode. If the power consumption is small, such as (off mode), turn off the main power and supply only the auxiliary power.

However, the power supply control apparatus of the conventional system is set such that the main power supply and the auxiliary power supply are supplied in the same manner as the operation mode even in the standby mode where the system operation is temporarily stopped. Is supplied. Accordingly, the conventional power supply control device has a problem that power consumption increases in the standby mode.

In addition, the conversion efficiency of a DC-DC converter (hereinafter referred to as a "converter"), which is generally supplied with a DC power source and converted to a DC driving voltage, is improved when the voltage level of the supplied DC power source is low. . Accordingly, when converting a main power supply having a voltage level higher than that of the auxiliary power supply, there is a problem in that the conversion efficiency of the converter is lower than when the auxiliary power supply is converted and used.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to provide a power supply control apparatus and method for a system for selectively supplying the main power supply and the auxiliary power supply having different voltage levels according to the power consumption. In providing.

Another object of the present invention is to provide a power supply control apparatus and method for a system for reducing power consumption by improving conversion efficiency of a converter.

The power supply control apparatus of the system according to the present invention for achieving the above object is a power supply for supplying a plurality of powers having different voltage levels, switching to open and close the supply path of the main power supply and the auxiliary power supply of the power supply unit And selectively supplying the auxiliary power source or the main power source to the system according to a result of comparing the power consumption calculated using the current values of the main power source and the auxiliary power source with a preset reference power while the auxiliary power source is always supplied. And a control IC for controlling the switching unit to supply.

The power supply unit preferably includes a first power supply line for always supplying the auxiliary power and a second power supply line for distributing and supplying the auxiliary power in the standby mode of the system.

Preferably, the present invention further comprises a resistor element connected to each of the power output terminals for detecting a current value to calculate the power consumption.

The resistor element preferably includes a first resistor sensing a current value of the main power supply and a second resistor sensing a current value of the auxiliary power supply.

The switching unit includes a first switch connected in series with the first resistor to open and close the supply path of the main power supply, and a supply path of the auxiliary power supply connected through the second power supply line in series with the second resistor. It is preferably configured to include a second switch for opening and closing the.

Preferably, the first switch and the second switch are field effect transistors.

Preferably, the reference power is set according to a threshold value of a power supply capacity having a low voltage among the power supplies.

The control IC preferably controls to supply the auxiliary power through the first and second power supply lines when the system desires power consumption that can be driven within the capacity of the auxiliary power.

Preferably, the control IC controls the main power to be supplied together with the auxiliary power through the first power supply line when the system desires more than the capacity of the auxiliary power.

When the control IC desires power consumption in the sleep mode in which the system stops driving, the control IC preferably controls the auxiliary power to be supplied only through the first power supply line.

The power supply control method of the system according to the present invention for achieving the object as described above, the step of supplying power having a different voltage level, the step of calculating the power consumption of the system by detecting the current of the supplied power; And comparing the calculated power consumption with a preset reference power, and selectively supplying the main power or the auxiliary power in a state in which the auxiliary power is being supplied according to the comparison result. .

In the selective power supply step, when the power consumption is less than the reference power, the main power is cut off and the auxiliary power is distributed and supplied.

In the selective power supply step, when the power consumption is greater than the reference power, it is preferable to supply the auxiliary power and the main power.

In the present invention, it is preferable that some of the auxiliary power is always supplied to the system.

Preferably, the reference power is set according to a threshold value of a power supply capacity having a low voltage among the power supplies.

In the present invention, if the power consumption is less than a separate reference power, it is preferable that the step of supplying only the auxiliary power that is always applied to the system.

The separate reference power is preferably set to power consumed in the sleep state in which the system stops driving.

According to the present invention having the configuration as described above, the power supply of different voltage levels is selectively supplied to the system in the state in which the auxiliary power is supplied according to the power consumption calculated by detecting the current supplied to the system. Accordingly, when the power consumption is small, it is possible to prevent unnecessary supply of power and to supply power having a low voltage level, thereby improving conversion efficiency of the DC-DC converter.

Hereinafter, with reference to the accompanying drawings will be described in detail a power supply control apparatus and method of a system according to an embodiment of the present invention.

1 is a block diagram of a power supply control apparatus of a system according to an exemplary embodiment of the present invention.

In the present embodiment, a description will be given using a desktop computer system (hereinafter, referred to as a "system") driven by a main power supply and an auxiliary power supply.

In FIG. 1, the present invention includes a power supply unit 10 that receives an external commercial AC power and converts it into a plurality of DC power sources having different voltage levels. The power supply unit 10 is a switching mode power supply for supplying a main power (MV) of 12V or 19V, and an auxiliary power (SV) of 5V. The power supply unit 10 supplies the converted power to the system 40 when a signal for supplying power from the system 40 is applied.

A resistance element for detecting a current value of the power supplied from the power supply unit 10 is provided. The resistance element includes a first resistor R1 for detecting a current value of the main power supply MV, and a second resistor R2 for detecting a current value of the auxiliary power supply SV.

The switching unit 20 selects the main power supply MV and the auxiliary power supply SV of the power supply unit 10 and supplies the selected power supply to the system 40.

A first switch FET1 for opening and closing the main power supply MV is connected to the switching unit 20 in series with the first resistor R1. In addition, a second switch FET2 for opening and closing the auxiliary power source SV is connected to the second resistor R2 in series. Between the second node N2 between the second resistor R2 and the second switch FET2 and the system 40, a first power supply line VL1 to which the auxiliary power SV is always applied is Is formed. In addition, the auxiliary power source SV is selectively selected between the first node N1 between the first switch FET1 and the system 40 and a source terminal S which is an output terminal of the second switch FET2. A second power supply line VL2 is formed to be supplied.

The first switch FET1 and the second switch FET2 are preferably provided as field effect transistors (hereinafter referred to as 'FET'). The main power source MV is formed as a current path is formed from the drain terminal D to the source terminal S in response to the voltage generated at the gate terminal G in the first switch FET1 and the second switch FET2. ) And the auxiliary power supply SV are supplied to the system 40.

Accordingly, in the operation mode and the standby mode of the system 40, the auxiliary power supply SV is connected to the first power supply line VL1 while the second switch FET2 is turned off. It is supplied to the system 40 through. In addition, when the second switch FET2 is turned on, the auxiliary power source SV is distributed from the second node N2 to allow the first power supply line VL1 and the second power source to be supplied. It is supplied to the system 40 through a power supply line (VL2).

Next, control to turn ON / OFF the first switch FET1 and the second switch FET2 according to the current value detected from the first resistor R1 and the second resistor R2. IC 30 is provided. The control IC 30 calculates power consumption based on the detected current value and controls the first switch FET1 and the second switch FET2 by comparing the calculated power consumption with a preset reference power. Thereby selectively supplying power to the system 40.

The system 40 is provided with a power control module 41 for controlling the power supply according to the power management class of the advanced configuration and power interface. The power control module 41 switches the power supply mode according to the operation state of the system internal devices to supply power. That is, in the system off mode or the sleep mode, the power control module 41 cuts off the supply of the auxiliary power SV supplied through the main power MV and the second power supply line VL2. As the supply of the main power source MV and the auxiliary power source SV is stopped, power consumption is reduced.

In addition, the system 40 includes a DC-DC converter (hereinafter referred to as a "converter") for converting the main power supply (MV) and the auxiliary power supply (SV) into a DC driving voltage (VCC) having a predetermined voltage level. 42) is provided. The converter 42 is preferably provided as a wide range converter for converting a DC power source of various voltage levels into the DC driving voltage VCC.

Next, a power supply control method of a system according to a preferred embodiment of the present invention will be described.

2 is a flowchart illustrating a power supply control method of a system according to an exemplary embodiment of the present invention.

In the tenth step S10 of FIG. 2, the power supply unit 10 converts the commercial AC power into a DC main power (MV, eg, 12V or 19V) and an auxiliary power (SV, eg, 5V). Supplies). At this time, since the first switch FET1 is turned on and the second switch is turned off, the main power supply MV includes the first resistor R1, the first switch FET1, and the first node ( The system 40 is supplied via N1), and the auxiliary power SV is supplied to the system 40 through the first power supply line.

According to the system operating state and the driving state, in the twelfth step S12, the control IC 30 uses the first resistor R1 and the second resistor R2 to supply currents of the main power supply MV and the auxiliary power supply SV. The value is detected and power consumption is calculated using the detected current value (S14). Subsequently, the control IC 30 compares the calculated power consumption with a preset first reference power RP1 (S16). In this case, the first reference power RP1 is power that is consumed in the standby mode in which the system temporarily stops driving. The first reference power RP1 is preferably set to a value smaller than the power threshold of the auxiliary power supply SV. For example, when the power threshold of the auxiliary power supply SV is 30W, the first reference power RP1 is preferably set to 25W.

As a result of the comparison, when the power consumption calculated using the detected current values of the main power supply MV and the auxiliary power supply SV is lower than the first reference power RP1, that is, when the system is in the standby mode, The control IC 30 controls the first switch FET1 in a turn-off state and controls the second switch FET2 in a turn-on state (S18). Therefore, the main power source MV is cut off, and the auxiliary power source SV is supplied through the first power supply line VL1 and is supplied to the system 40 through the second power supply line VL2. As a result, the system 40 receives the auxiliary power SV through the two supply paths VL1 and VL2, respectively. Accordingly, the converter 41 converts the two auxiliary power supplies SV into the DC driving voltage VCC, so that the conversion efficiency of the converter 41 converts the main power supply SV and the auxiliary power supply SV. Is improved.

On the other hand, when the power consumption is greater than the first reference power RP1 while only the auxiliary power supply SV is being supplied, that is, when additional power is required, the control IC 30 may control the first switch FET1. Is switched to the turn-on state, and the second switch FET2 is switched to the turn-off state (S17). Therefore, the main power source MV and the auxiliary power source SV are supplied to the system 40 through the same path as in the eleventh step S11. For example, the auxiliary power source SV is supplied through the first power supply line VL1, and the main power source MV is supplied to the system 40 through the first resistor R1 and the first switch FET1.

In addition, the control IC 30 may compare the power consumption with the second reference power RP2. In this case, the second reference power RP2 is a sleep mode in which the system returns to a driving state according to a wake-up command such as a mouse input or a key input, and an off mode in which power supply is cut off. As the power consumed at (typically less than 5W), 5W is used in this embodiment.

As a result of the comparison, when the power consumption is smaller than the second reference power RP2, that is, when the system is in the sleep mode or the off mode, the control IC 30 may control the first switch FET1 and the second switch ( FET2) is turned off. Accordingly, the system 40 receives only the auxiliary power SV through the first power supply line VL1. At this time, the power control module 41 of the system 40 is the main power (MV) and / or auxiliary power (SV) system due to the malfunction and delay of operation of the first switch (FET1) and the second switch (FET2). It is desirable to turn-off the switch (not shown) located at the power stage of the system 40 which opens and closes the power supply path to block the application of the power supply path.

As a result of experiments using the present invention configured as described above, in the standby mode of the system, when the auxiliary power SV is supplied instead of the main power supply MV, the converter 42 is compared with the case where the main power supply MV is supplied. The conversion efficiency of is improved by about 3%.

Through the above process, the present invention calculates power consumption by detecting current values of the main power supply and the auxiliary power supply supplied to the system. When the standby mode of the system, that is, the calculated power consumption is less than the first reference power, the main power is cut off and the auxiliary power is controlled to be supplied through two power supply paths. In addition, when the off mode and the sleep mode of the system, that is, the power consumption is less than the second reference power, it is controlled to supply only the auxiliary power through one supply path.

In the above-described embodiment, the present invention has been described using a desktop computer system. However, the present invention can be applied to various electronic devices driven by a plurality of auxiliary power sources having different voltage levels due to a change in power consumption of the system, such as a digital TV.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, and a person of ordinary skill in the art without departing from the spirit and scope of the present invention. It will be apparent that various modifications, changes, and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, the present invention detects the current value of a plurality of power sources having different voltage levels, and selectively supplies the main power supply or the auxiliary power supply according to the result of comparing the power consumption and the reference power calculated using the detected current value. do. Accordingly, the present invention converts and uses the auxiliary power source having a lower voltage level than the main power source to the DC driving voltage, it is possible to improve the conversion efficiency of the DC-DC converter. As a result, the present invention has the advantage of reducing unnecessary power consumption.

Claims (17)

A power supply unit supplying a plurality of powers having different voltage levels; Switching unit for opening and closing the supply path of the main power supply and the auxiliary power supply of the power supply unit, In order to supply the auxiliary power or the main power selectively to the system according to a result of comparing the power consumption calculated using the current value of the main power and the auxiliary power with a preset reference power in the state of supplying the auxiliary power at all times. Power supply control apparatus for a system comprising a control IC for controlling the switching unit. The method of claim 1, wherein the power supply unit, A first power supply line for supplying the auxiliary power at all times; And a second power supply line for distributing and supplying the auxiliary power in the standby mode of the system. The method of claim 1, And a resistance element connected to each of the power output stages to detect a current value to calculate the power consumption. The method of claim 3, wherein the resistance element, A first resistor for sensing a current value of the main power supply; And a second resistor for sensing a current value of the auxiliary power supply. The method of claim 1 or 4, wherein the switching unit, A first switch connected in series with the first resistor to open and close a supply path of the main power; And a second switch connected in series with the second resistor to open and close a supply path of the auxiliary power supplied through the second power supply line. The method of claim 5, wherein the first switch and the second switch, A power supply control device for a system, characterized in that the field effect transistor. The method of claim 1, wherein the reference power is, The power supply control device of the system, characterized in that the set according to the threshold of the power supply capacity having a low voltage of the power supply. The method of claim 1, wherein the control IC, And when the system desires a power consumption that can be driven within the capacity of the auxiliary power, controlling the auxiliary power to be supplied through the first and second power supply lines. The method of claim 1, wherein the control IC, If the system wants more than the capacity of the auxiliary power, the power supply control device of the system, characterized in that the control to supply the main power together with the auxiliary power through the first power supply line. The method of claim 1, wherein the control IC, And supplying the auxiliary power only through the first power supply line when the system desires power consumption in a sleep mode in which the system stops driving. Supplying power with different voltage levels, Calculating power consumption of the system by detecting a current of the supplied power; Comparing the calculated power consumption with a preset reference power; And selectively supplying the main power or the sub power in a state where the sub power is being supplied according to the comparison result. The method of claim 11, wherein the selective power supply step, If the power consumption is less than the reference power, the power supply control method of the system characterized in that the main power is cut off and the auxiliary power is distributed. The method of claim 11, wherein the selective power supply step, And when the power consumption is greater than the reference power, supplying the auxiliary power and the main power. The method according to claim 12 or 13, Partial power of the auxiliary power is always supplied to the system power supply control method of the system. The method according to any one of claims 11 to 13, wherein the reference power, The power supply control method of the system, characterized in that set according to the threshold of the power supply capacity having a low voltage of the power supply. The method of claim 11, If the power consumption is less than a separate reference power, the power supply control method of the system, characterized in that further comprising the step of supplying only the auxiliary power is always applied to the system. The method of claim 16, wherein the separate reference power, Power supply control method of a system, characterized in that the system is set to the power consumed in the sleep state to stop driving.

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