KR20040100079A - Power supply system of computer - Google Patents

Abstract

PURPOSE: A system for supplying power to a computer having parts using the same voltage in a motherboard and a graphic card is provided to reduce expense and a number of parts by removing circuits of the graphic card duplicated with the motherboard and commonly using the circuit of the motherboard. CONSTITUTION: An SMPS(Switching Mode Power Supply)(10) supplies multiple DC voltages. An operative power converter(20) including a switching regulator(22) and a VRM(Voltage Regulator Module)(26) converts the DC voltages supplied from the SMPS into the operative voltages of a memory(24) and a CPU(28) by installing to the motherboard(20). Connectors(32,42) connect a graphic card chipset(44) and a graphic card memory(48) using the same operative voltage as the motherboard to the operative voltages of the motherboard by installing to the graphic card(40) and the motherboard. A switching part(30) cuts off the standby voltage to the graphic card memory.

Description

Power supply system of computer {POWER SUPPLY SYSTEM OF COMPUTER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply system for a computer, and more particularly, to a power supply system for a computer that can reduce the number of parts, reduce the area of a PCB, and reduce costs.

Switching Mode Power Supply (SMPS) receives AC power from the outside and converts it to various DC power (for example, 5V, 12V, 3.3V, etc.) to convert the hard disk drive, floppy disk drive It will be supplied to various devices such as CD-ROM and motherboard.

Here, the motherboard is provided with a power connector for connecting the SMPS and the cable, the power is supplied to a plurality of components such as PCI chipset, RAM, CPU, etc. mounted on the motherboard. The AGP slot on the motherboard will also power the graphics card.

The power supply system of such a conventional computer is briefly shown in FIG. As shown in this figure, the power supply system of the conventional computer is a component (mounted to the motherboard 120 to receive the power supplied from the SMPS 110 through a power connector (not shown) of the motherboard 120) 124 and 128, a switching regulator unit 122 having a switching circuit and a regulator, a voltage regulator module (VRM, 126), etc., for converting to _a power supply voltage (V _a or V _b ) compliant with the specification. . In addition, switching to provide the operating power (V _c or V _d ) of each component 134, 138 also equipped with a graphics card 130 that is powered through an AGP slot (not shown) of the motherboard 120. Regulator sections 132, 136 and the like.

That is, in the related art, the operation regulators V _a, V _b, V _{c, and} V _d of the components 120, 128, 134, and 138 of the motherboard 120 and the graphics card 130 are different, and thus the switching regulator unit 122 Circuits such as, 132, 136 or VRM 126 were configured on the motherboard 120 and the graphics card 130 to supply power.

However, in recent years, as the system memory and the graphics memory use a similar memory type as the DDR (Doubile Data Rate) type, the memory power supply voltage is the same on the graphics card and the motherboard. In addition, the core voltage of the graphics chipset can use the same power supply voltage as that of the CPU of the motherboard and the core of the Graphics & Memory Controller Hub (GMCH).

Thus, in the conventional configuration of switching regulators 132, 136, etc. in the graphics card 130 to supply the operating power (V _c or V _d ) to each component 134, 138 increases the area of the PCB This increases the number of parts and increases the cost.

Accordingly, it is an object of the present invention to provide a computer power supply system that can reduce the number of parts, reduce the area of the PCB, and reduce the cost.

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

2 is a block diagram of a power supply system of a computer according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: SMPS 20: Motherboard

22: switching regulator unit 24, 48: memory

26: VRM 28: CPU

30: switching part 32, 42: connection part

40: graphics card 44: chipset

The object is, according to the invention, of a computer comprising a motherboard having a plurality of components operating at different voltages and a graphics card having at least one identical voltage component operating at the same voltage as the components of the motherboard. A power supply system, comprising: a power supply for supplying a plurality of different DC power sources; An operation power conversion unit provided on the motherboard and configured to receive the DC power from the power supply unit and convert the DC power into operation power of each of the components and provide the converted power to the components; And a connection portion provided on the motherboard and the graphics card, the interconnection portion being interconnected so that the operating power supply of the operating power conversion portion is provided to the same voltage component of the graphics card.

Here, the component may include at least one of a chipset of the motherboard and the graphics card, and a memory of the motherboard and the graphics card.

When the standby power is supplied to the memory of the motherboard, the switching unit may further include a switching unit to switch off the standby power supply to the graphics card memory through the connection unit, thereby reducing power in the standby mode.

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

2 is a block diagram of a power supply system of a computer according to the present invention. As shown in this figure, the present power supply system is provided with a SMPS 10, which is a power supply unit for supplying a plurality of different DC powers, and a motherboard 20, and stores the DC power supplied from the SMPS 10 in memory. 24 and a central processing unit (CPU, 28) of the operating power supply (V _a and V _b), the switching regulator 22 and voltage regulator modules to be converted to: operating power, including the (voltage regulator module below VRM, 26) graphics card having a conversion unit, and a mother board 20 and the graphics provided on the card 40, the same operation power to the power supply line for a component voltage (V _a, V _b) of the mother board 20 (V _a, V _b) Connections 32 and 42 for connecting to chipset 44 and memory 48 of 40, and switching unit 30 for interrupting supply of standby power V _asb to memory 48 of graphics card 40 ).

SMPS (10) is a hard disk drive, a floppy disk drive, a CD-ROM and the motherboard 20 to stabilize the DC voltage stabilized by full-wave rectification of the AC power using a bridge diode, and smoothed using a capacitor, etc. Supply to the back.

The DC voltage of the SMPS 10 supplied through the power connector of the motherboard 20 is supplied to the operating power supply according to the specifications of each component, for example, the memory 24, the central processing unit 28, etc. through the operation power conversion unit. V _a, V _b ).

Here, the switching regulator unit 22, which is an operating power conversion unit of the memory 20 of the motherboard 20, receives standby power V _sb and normal power V ₁ from the SMPS 10, and then standbys and _normals the system. a mode memory 24 to switch to the standby power supply (V _asb) and stationary power source (V _a) is preferred. Thus, motherboard 20, the memory 24 has a dual-power (normal power source (V _a) and the standby power supply (V _asb)) is to be supplied.

Then, the motherboard 20 to provide the component voltage of the motherboard 20 to the component of the graphics card 40 having the same voltage as the component of the motherboard 20 as the operating power without the configuration of a separate operating power converter. And connections 32 and 42 are provided on the graphics card 40.

For example, recently, the central processing unit 28 and the graphics chipset 44 have the same operating power supply (V _b ), and the system memory 24 and the graphics memory 48 have the same operating power supply. Therefore, as shown in the figure, a power supply voltage supplied to the memory 24 of the motherboard 20 is provided to the memory 48 of the graphics card 40 through the connecting portions 32 and 42, the motherboard ( The power supply voltage supplied to the central processing unit 28 of 20 is provided to the chipset 44 of the graphics card 40 via the connections 32 and 42. Therefore, the graphics card 40 does not have a separate operating power conversion unit for supplying the operating power to the memory 48 and the chipset 44 of the graphics card 40, thereby reducing the number of parts, PCB area is reduced The cost can be reduced.

The switching unit 30 supplies power V _a to the memory card 48 of the graphics card 40 only in the normal mode of the system, and standby power to the memory 48 of the graphic card 40 in the standby mode. V _asb ) to switch off the supply. In this case, since the power to the graphics memory 48 does not need to be supplied in the standby mode, the standby power supply V _asb is cut off. Thus, there is a power saving effect. The switching unit 30 may be a field-effect transistor (FET), a relay circuit, or the like.

In the case of the FET, the normal power supply (V _a ) line supplied from the SMPS 10 is connected to the gate so that the operating voltage V _a is supplied to the graphic memory 48 only when the normal power supply (V _a ) is supplied to the gate. and, since the standby mode unless a normal power supply (V _a) applied to the gate can be adopted a configuration in which the power supply to the graphics memory 48 block.

Of course, in the above-described configuration, some of the DC voltage of the SMPS 10 supplied to the motherboard 20 is provided to the graphics card 40 through the AGP slot, the motherboard 20 and the graphics card 40 Parts having different operating power are provided with an operating power conversion unit as in the prior art, and are supplied with power.

According to this configuration, the power flow of the power supply system of the computer according to the present invention will be described. First, the DC voltage supplied from the SMPS 10 is converted into operating power required by each component through the operating power conversion unit of the motherboard 20 and provided to each component. In addition, a part of the SMPS 10 is supplied to the graphics card 40 through the AGP slot of the motherboard 20, and components having different operating power from components of the motherboard 20 are each operating power conversion unit (not shown). Operation power is supplied through On the other hand, the components 24 and 28 having the same operating power as the components 24 and 28 of the motherboard 20 are the components 20 and 28 of the motherboard 20 through the connections 32 and 42 provided separately from the AGP slots. ) Is provided with operating power (V _a, V _b ).

Meanwhile, in the above-described embodiment, the CPU 28 of the motherboard 20 and the chipset 44 of the graphics card 40 are supplied with the same operating power, and the memory 24 of the motherboard 20 and the graphics card ( 40) Although the memory 48 is supplied with the same operating power, the present invention is not limited thereto, and the present invention is not limited thereto. In the case where a component that receives the same operating power as that of the motherboard 20 is present in the graphic card 40, the configuration of the present invention. This is applicable.

Meanwhile, in the above-described embodiment, the switching unit 30 is provided on the motherboard 20, but it may be provided on the graphic card 40.

Meanwhile, in the above-described embodiment, the connection parts 32 and 42 are provided separately from the AGP slot, but the connection parts 32 and 42 may be configured to be included in the AGP slot.

As described above, the present invention provides a component having the same operating power as that of the motherboard in the graphics card, so that the operating power of the motherboard component is provided to the components of the graphics card through a connection without a separate circuit configuration in the graphics card. This eliminates the circuitry of the graphics card that overlaps with the motherboard and shares the motherboard's circuitry, reducing costs and reducing component count.

As described above, according to the present invention, there is provided a computer power supply system capable of reducing the number of parts, reducing the area of the PCB, and reducing the cost.

Claims (3)

A power supply system for a computer comprising a motherboard having a plurality of components each operating at a different voltage and a graphics card having at least one same voltage component operating at the same voltage as the components of the motherboard, A power supply unit supplying a plurality of different DC power supplies; An operation power conversion unit provided on the motherboard and configured to receive the DC power from the power supply unit and convert the DC power into operation power of each of the components and provide the converted power to the components; And a connection portion provided on the motherboard and the graphics card, the interconnections being interconnected such that the operating power of the operating power conversion portion is provided to the same voltage component of the graphics card. The method of claim 1, Wherein said component comprises at least one of a chipset of said motherboard and said graphics card and a memory of said motherboard and said graphics card. The method of claim 2, And a switching unit for switching the standby power supply to the graphics card memory through the connection unit when the standby power is supplied to the memory of the motherboard.