KR100776002B1 - Computer system and method of controlling the same - Google Patents

Abstract

The present invention relates to a computer system having a power saving mode function, comprising: a main power supply for supplying DC power for driving the entire system; Memory power for supplying the switching power to the driving power of the memory by generating a switching power having a normal mode frequency by receiving the DC power from the main power supply unit repeatedly performing the on / off switching operation for a predetermined time every predetermined period A supply unit; And a controller configured to control the memory power supply unit to supply the switching power having a power saving mode frequency which is the minimum frequency at which the memory can operate to enter the power saving mode. As a result, it is possible to provide a computer system that can save power consumed in the power saving mode.

Description

COMPUTER SYSTEM AND METHOD OF CONTROLLING THE SAME

1 is a control block diagram of a power supply unit of a computer system according to the present invention;

2 illustrates a switching waveform of power supplied to a memory of a computer system according to the present invention;

3 is a control block diagram of a power supply unit of a conventional computer system.

* Explanation of symbols for the main parts of the drawings

 1: main power supply 3: adapter

 5: Battery 7: Adapter / Battery Selection

10: DC / DC converter 12: PWM control unit

14: 5V switching circuit 16: 3.3V switching circuit

18: power saving power control unit 20: system unit

22: CPU 24: Memory

The present invention relates to a computer system, and more particularly, to a computer system that can save the power consumed in the power saving mode.

As a method for reducing power consumption in a computer, advanced power management (APM) and advanced configuration and power interface (ACPI), which are power management functions for controlling power by interlocking hardware, a motherboard, and a BIOS, are used.

The power saving mode function supported by the power management function is a method of controlling power according to a system use environment, and controlling power so that power is supplied only to a required system part according to the state of the system. In general, the power saving mode is performed in five stages, and the power control of the hard disk, the display device, and the memory is controlled according to each stage so that the system consumes the minimum power without the system being shut down.

The power saving mode function enters the power saving mode by selecting a hotkey provided in the portable computer, and the system is returned to the normal state by selecting the power saving function releasing key. Alternatively, when there is no signal input for a predetermined time, it is also possible to set to automatically enter the power saving mode.

In order to perform the power saving mode function, power must be freely interrupted for the desired part of the system, so special control is required in the power supply system.

3 is a control block diagram of a conventional computer system. As shown in the figure, the system unit 120 for the operation of the computer, the main power supply unit 100 to which the externally supplied power is applied, and the voltage required by the system units to supply power from the main power supply unit 100 to each other. It includes a DC / DC converter 110 to convert to a power supply having each.                         

The system unit 120 includes a plurality of devices for the overall operation of the computer, such as a CPU 122 for data processing and calculation, and a memory 124 which is a data storage medium.

The main power supply unit 100 includes an adapter 103 for converting AC power from the outside into a DC power source, a battery 105 for supplying charging power when there is no input of an external power source, an adapter 103 and a battery 105 An adapter / battery selection unit 107 for detecting power input from which is included. The DC power applied from the main power supply 100 typically has a voltage of 19V.

The DC / DC converter 110 supplies the driving power by converting the DC power supplied from the main power supply unit 100 into a power having a voltage having a proper magnitude in each part of the system unit 120. DC / DC converter 110 is a power ON1 input terminal for receiving the power supply mode signal selected from the user or system unit 120, PowerON2 input terminal, and 19V power from the main power supply 100 for converting the power to 5V voltage 5V switching circuit 114 and 3.3V switching circuit 116 for converting into a 3.3V voltage power supply, the 5V switching circuit 114 and 3.3V switching in accordance with input signals from the PowerON1 input terminal and the PowerON2 input terminal. And a PWM controller 112 for controlling the duty ratio of the circuit 116 to supply the system unit 120.

The 5V switching circuit 114 converts a 19V power supply from the main power supply unit 100 into a 5V voltage power supply and supplies driving power to a device portion such as a CD ROM drive. The 3.3V switching circuit 116 mainly supplies power to the memory 124 of the system unit 120. The switching circuit refers to a circuit capable of stepping down, stepping up, and inverting power by periodically turning on / off a switching device including a switching device such as a FET.

The PWM controller 112 stabilizes the power output from the switching circuit by adjusting a period in which the switching device of the switching circuit is turned on / off. When a signal is input from the PowerON1 input terminal, the PWM controller 112 controls the 5V switching circuit 114 to supply driving power to the device of the system unit 120. When a signal is input from the PowerON2 input terminal, the 3.3V switching circuit 116 is controlled to supply power to the memory 124 of the system. In general, since the signal at the input terminal is set to high active, when a high signal is input from the input terminal, the PWM controller 112 turns on the corresponding switching circuit, and when a low signal is input. Turn off the corresponding switching circuit.

Accordingly, when the user selects a power switch to drive the computer system, a high signal is input to both the PowerON1 input terminal and the PowerON2 input terminal, and the PWM controller 112 operates the 5V switching circuit 114 according to the signal from the PowerON1 input terminal. The control unit supplies driving power to the device of the system unit 120, and controls the 3.3V switching circuit 116 according to the signal from the PowerON2 input terminal to supply power to the memory 124 of the system. Therefore, the driving power is applied to the entire system unit 120, and the system enters the normal mode in which all systems operate normally.

On the other hand, when the power saving mode is selected, a low signal is input to the PowerON1 input terminal and a high signal is input to the PowerON2 input terminal. The PWM controller 112 controls the 5V switching circuit 114 according to the low signal inputted from the PowerON1 input terminal so that the driving power is not applied to the device of the system unit 120, and according to the signal from the PowerON2 input terminal. The 3.3V switching circuit 116 is controlled to supply power to the memory 124 of the system. That is, in the power saving mode, the driving power is supplied only to the memory 124 of the system unit 120 so that data that the user is working on is preserved, and all power supplied to all other devices is cut off. Accordingly, power consumed by the system unit 120 is saved, and when the user releases the power saving mode state, power is supplied to the device of the system unit 120 again, and data that was being stored in the memory 124 is in operation. You can summon it.

However, in the power saving mode, power is consumed very little because no data is stored or read in the memory. That is, even though the memory requires only a power to maintain the stored data, the power supplied through the 3.3V switching circuit is supplied with the same power as it is in operation, and thus unnecessary power is consumed.

Accordingly, an object of the present invention is to provide a computer system that can save power consumed in a power saving mode.

The above object is, according to the present invention, a computer system having a power saving mode function, the main power supply for supplying a DC power for driving the entire system; A memory power supply for supplying driving power to memory by generating switching power having a normal mode frequency by receiving the DC power from the main power supply and repeatedly performing on / off switching operations for a predetermined period of time every predetermined period; And a controller configured to control the memory power supply unit to supply power to the memory having a power saving mode frequency which is the minimum frequency at which the memory is operable when entering the power saving mode. Is achieved.

Here, the control unit preferably has the power saving mode frequency by delaying the turn-on switching operation cycle of the memory power supply unit for a predetermined time.

According to another aspect of the present invention, there is provided a control method of a computer system having a power saving mode function, the method comprising: entering a power saving mode state; Cutting off power supplied to system devices other than the memory; And controlling the frequency of power supplied to the memory to have a minimum frequency for operation of the memory.

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

1 is a control block diagram of a computer system according to the present invention. As shown in the drawing, the system unit 20 for the operation of the computer, the main power supply unit 1 to which the externally supplied power is applied, and the DC power required from each system for the DC power from the main power supply unit 1. It includes a DC / DC converter (10) for supplying each converted to a power having a.

The system unit 20 includes a plurality of devices for the overall operation of the computer, such as a CPU 22 for data processing and calculation, and a memory 24 as a data storage medium.                     

The main power supply 1 includes an adapter 3 for converting AC power from the outside into a DC power source, a battery 5 for supplying charging power when there is no input of an external power source, an adapter 3 and a battery 5 An adapter / battery selector 7 for detecting which power source is from is included. The DC power applied from the main power supply 1 typically has a voltage of 19V.

The DC / DC converter 10 supplies the driving power by converting the DC power supplied from the main power supply unit 1 into a power having a voltage having a suitable magnitude in each part of the system unit 20. The DC / DC converter 10 is for converting a 19V power supply from the PowerON1 input terminal, a PowerON2 input terminal, and the main power supply unit 1 into a 5V voltage power source that receives a power supply mode signal selected by the user or the system unit 20. A 5V switching circuit 14 and a 3.3V switching circuit 16 for converting to a 3.3V voltage power supply, the 5V switching circuit 14 and the 3.3V switching in accordance with input signals from the PowerON1 input terminal and the PowerON2 input terminal. And a PWM control unit 12 for controlling the duty ratio of the circuit 16 and supplying it to the system unit 20. In addition, according to the signal branched from the signal line of the PowerON1 input terminal, the power-saving power supply control unit 18 that generates a control signal for controlling the 3.3V switching circuit 16 to the PWM control unit 12 in the power-saving mode, and the PowerON1 It further includes an inverter 19 branched from the input terminal interposed in the signal line for transmitting the input signal to the power saving power supply.

The 5V switching circuit 14 converts the 19V power supply from the main power supply unit 1 into a 5V voltage power supply and supplies driving power to a device portion such as a CD ROM drive. The 3.3V switching circuit 16 mainly supplies power to the memory 24 of the system unit 20.                     

When the high signal is inputted from the PowerON1 input terminal, the PWM controller 12 controls the 5V switching circuit 14 to supply driving power to the device of the system unit 20. When a high signal is input from the PowerON2 input terminal, the 3.3V switching circuit 16 is controlled to supply power to the memory 24 of the system.

In addition, the PWM control unit 12 controls the on / off cycle of the 3.3V switching circuit 16 when a signal is applied from the power saving power control unit 18 so that a turn-on signal delayed from the original turn-on signal is generated. That is, the frequency of the switching pulse is reduced within the range in which the operating power is supplied to the memory 24.

When entering the power saving mode, the power saving power control unit 18 generates a predetermined control signal to the PWM control unit 12 to reduce the switching frequency of the 3.3V switching circuit 16. The power saving power control unit 18 receives a signal applied to the PWM control unit 12 from the PowerON1 input terminal at the same time. Since the inverter line 19 is interposed in the signal line branched to the power saving power control unit 18, the power supply is input through the PowerON1 input terminal. The inverted signal of the signal is applied.

Accordingly, when the user selects the power switch to drive the computer system, a high signal is input to both the PowerON1 input terminal and the PowerON2 input terminal, and both the 5V switching circuit 14 and the 3.3V switching circuit 16 are driven to provide a system part. Driving power is applied to the entirety of 20. In addition, the high signal input through the PowerON1 input terminal is inverted into a low signal through the inverter 19 and transferred to the power saving power control unit 18. Therefore, the power saving power control unit 18 is turned off and does not operate.

On the other hand, when the power saving mode is selected, a low signal is input to the PowerON1 input terminal and a high signal is input to the PowerON2 input terminal. The PWM controller 12 controls the 5V switching circuit 14 according to the low signal input from the PowerON1 input terminal so that the driving power is not applied to the device of the system unit 20, and 3.3 according to the signal from the PowerON2 input terminal. The V switching circuit 16 is controlled so that power is supplied to the memory 24 of the system. In addition, the low signal input through the PowerON1 input terminal is inverted into a high signal through the inverter 19 and transferred to the power saving power control unit 18. Accordingly, the power saving power control unit 18 is turned on to apply a predetermined control signal to the PWM control unit 12, and in accordance with the control signal from the power saving power supply control unit 18, the PWM control unit 12 uses a 3.3V switching circuit ( 16, the switching frequency of the 3.3V switching circuit 16 is reduced.

2 shows a switching waveform of a power supply output from the 3.3V switching circuit 16. As shown in the figure, the frequency of the power source generated in the power saving mode is much smaller than the waveform of the power source generated in the 3.3V switching circuit 16 in the normal mode. In the power saving mode, power is consumed very little because no data is stored or read in the memory 24. That is, since the memory 24 needs only a power supply that holds data stored therein, the memory 24 can be operated even with a power supply having a frequency much smaller than that in the normal mode.

As described above, the present invention by controlling the frequency of the power supplied to the memory 24 in the power saving mode, by dramatically reducing the on-duty of the switching signal within the range of the operating power is supplied to the memory 24, It is to reduce the amount of power consumed more than the conventional power saving mode.

As described above, according to the present invention, a computer system capable of saving power consumed in a power saving mode can be provided.

Claims (3)

In a computer system having a power saving mode function, A main power supply for supplying DC power for driving the entire system; A memory power supply unit which receives the DC power from the main power supply unit and generates a switching power having a normal mode frequency by repeatedly performing an on / off switching operation for a predetermined time every predetermined period to supply driving power to a memory; And a controller configured to control the memory power supply unit to supply power to the memory having a power saving mode frequency which is the minimum frequency at which the memory can operate when entering the power saving mode. The method of claim 1, And the control unit has the power saving mode frequency by delaying the turn-on switching operation cycle of the memory power supply unit for a predetermined time. In the control method of a computer system having a power saving mode function, Entering the power saving mode; Cutting off power supplied to system devices other than the memory; Controlling the frequency of power supplied to the memory to have a minimum frequency for operation of the memory.

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