KR20010056419A - Circuit controlling power supply in computer - Google Patents

Abstract

PURPOSE: A circuit for controlling a power source for a computer is provided to boot a computer automatically by generating a power control signal in accordance with a power supply when a power source is supplied again after a computer is turned-off caused by a cut-off of a power as a power failure in a power supplying system adopting a power switch of an edge trigger method. CONSTITUTION: The first level shifter(201) and the second level shifter(202) adjust a signal level inputted from a power source(Vcc). An inverter(203a) inverts the outputting signal of the first level shifter(201). A flip-flop(203b) latches the outputting signal of the second level shifter(202). A NOR gate(203c) generates a remote control signal by logically processing the output signals of the inverter(203a) and the flip-flop(203b). A capacitor(204a) is connected to the input terminal of the second level shifter(202) and instantaneously charges an electric charge when the power source(Vcc) is supplied. A transistor(204b) is connected to the charged capacitor(204a) in parallel and controls the input signal of the second level shifter(202) by discharging the capacitor(204a). The first resistance(R1), the second resistance(R2) and the third resistance(R3) are connected to among the first level shifter(201), the second level shifter(202), the transistor(204b) and the power source(Vcc) for a stabilization of the input signals of the first level shifter(201), the second level shifter(202) and the transistor(204b).

Description

Circuit controlling power supply in computer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply control circuit for a computer, and more particularly, to a power supply control circuit for a computer that is automatically booted when power is supplied again after a computer is turned off due to a power failure.

There are two power supply systems of a conventional computer, a power supply system used for an AT motherboard and a power supply system used for an ATX motherboard.

The power supply system used in the AT motherboard is a state in which the power switch is on (0n) and off, and directly controls the power supply so that power is supplied when the switch is on, and power is cut off when the switch is on.

However, in the ATX motherboard, the power supply is controlled from the main board, and the power control is edge triggered so that the main board recognizes the signal when the power switch is turned on and operates the power supply. To supply power.

On the other hand, the AT motherboard is continuously powered when the switch is on, so when the power is turned off and the computer is powered off again, the computer boots automatically. However, the ATX board responds to the trigger signal by turning on the power switch. Because the computer is booted by the power supply, even if the power supply is cut off and power is supplied again, the computer does not boot because there is no trigger signal by the power switch on.

Therefore, the user must boot the computer by operating the power switch.

1 is a block diagram showing a power supply system employed in a conventional ATX board.

Referring to FIG. 1, a power supply system employed in a conventional ATX board controls a power switch 101 to generate a trigger signal, a power supply 102 to supply power, and the power supply 102. It consists of a main board (103).

Here, the power switch 102 is turned on only at the moment of pressing.

In the conventional power supply system as described above, the power is connected to the main board 103 through the power supply 102 when the power is connected, but the power switch 101 is controlled by controlling the power supply 102 from the main board 103. The power supply device 102 is not operated until the trigger signal due to the ON of) is input.

At this time, when the power switch 101 is turned on, a trigger signal (for example, a signal of 0 connected to ground) at the moment of being turned on is transmitted to the main board 103. Then, the main board 103 operates the power supply device 102 by the trigger signal, and power is supplied to the main board 103.

In the power supply system employed in the conventional ATX board as described above, the power supply device 102 operates only when a trigger signal due to the power switch 101 is turned on to supply power to the main board 103. Even if the power is cut off due to a power failure or the like during operation, the computer does not boot until the user operates the power switch 101 even when the power is supplied again.

On the other hand, a computer used in a surveillance system such as a DVR (Digital Video Recorder) must always operate the system. Therefore, when the power is cut off due to a power failure or the like, the computer should automatically boot.

However, since the power supply system employed in the ATX board is powered off and the computer is turned off, the computer is turned off when there is no user since booting only requires operation of the user's power switch 101.

Therefore, the power supply system employed in the conventional ATX board is not suitable for the continuity of a monitoring system or system such as a DVR.

The present invention was created in order to solve the above problems, the power supply in the power supply system employing the edge-triggered power switch is cut off for reasons such as power failure, when the power supply is supplied again after the computer is turned off It is an object of the present invention to provide a power control circuit for a computer that automatically generates a power control signal according to the computer boot.

1 is a block diagram showing a power supply system employed in a conventional ATX board.

2 is a circuit diagram of a power supply control circuit for a computer according to the present invention.

Figure 3 is a block diagram showing a power supply system employing a computer power control circuit according to the present invention.

<Explanation of symbols for the main parts of the drawings>

101, 301 ... Power switch 102, 303 ... Power supply

103, 303 ... Mainboard 201 ... Level 1 Shifter

2nd Level Shifter 203 Logic Processing Unit

203a ... Inverter 203b ... Flip-flop

203c ... NOR gate 204 ... initial signal control unit

204a ... capacitor 204b ... transistor

304 Power supply circuit 305 Jumper

In order to achieve the above object, the computer power supply control circuit according to the present invention, the first level adjusting means and the second level adjusting means for adjusting the level of the signal input from the power source, and the first A logic processing unit for generating a power control signal by logic processing the output signals of the level adjusting means and the second level adjusting means, and an initial signal control unit connected to an input terminal of the second level adjusting means to control an input signal. It is composed.

Here, the logic processor may include an inverter for inverting the output signal of the first level adjusting means, a flip-flop for latching the output signal of the second level adjusting means, It is preferable that the output signal of the inverter and the flip-flop is formed of a NOR gate for generating a power supply control signal.

In addition, the initial signal control unit is connected to the input terminal of the second level adjusting means (capacitor) for instantaneously charging the charge when the power supply, and connected in parallel with the charged capacitor to discharge the capacitor It is preferable to comprise a transistor for controlling the input signal of the two-level adjusting means.

According to the present invention as described above, when the power is cut off due to a power failure or the like, when the computer is turned off during the operation and the power is supplied again, booting is automatically enabled.

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

2 is a circuit diagram of a power supply control circuit for a computer according to the present invention.

2, a computer power control circuit according to the present invention includes a first level shifter 201 and a second level shifter 202 for adjusting the level of a signal input from a power source Vcc; An inverter 203a for inverting the output signal of the first level shifter 201, a flip-flop 203b for latching the output signal of the second level shifter 202, and a flip with the inverter 203a. Logically processes the output signal of the flop 203b and is connected to an NOR gate 203c for generating a power supply control signal and an input terminal of the second level shifter 202 to instantly charge electric charges when a power supply Vcc is supplied. And a transistor 204b connected in parallel with the charged capacitor 204a to discharge the capacitor 204a to control an input signal of the second level shifter 202.

Here, the first resistor (R1), the second resistor (R2) and the third resistor (R3) in order to stabilize the input signal of the first level shifter 201, the second level shifter 202 and the transistor 204b. ) Is preferably connected between the first level shifter 201 and the second level shifter 202 and the transistor 204b and the power supply Vcc.

The operation of the computer power control circuit according to the present invention having the above configuration will be described in detail.

First, when the power supply Vcc is cut off due to a power failure or the like, and the power supply Vcc is input, the power supply Vcc is input to the first level shifter 201 and the second level shifter 202 so that the first level shifter 201 is provided. ) And the second level shifter 202 adjust the input signal to a predetermined level. At this time, when the power supply Vcc is input, the power supply Vcc signal is input to the base terminal of the transistor 204b, and the transistor 204b is turned on. When the transistor 204b is turned on, the terminal is shorted. (short) so that all current flows to the transistor 204b terminal.

In addition, when the power supply Vcc is input, the capacitor 204a connected to the input terminal of the second level shifter 202 is charged to maintain the input power value for a predetermined time, and then the shorted transistor 204b Current is discharged to the terminal.

Here, as described above, the capacitor 204a maintains the value of the input power Vcc for a predetermined time and immediately discharges the capacitor when the power supply Vcc is input to the input signal of the second level shifter 202. After a predetermined time has passed after inputting 1 (digital value) by 204a, the capacitor 204a is discharged to set the input of the second level shifter 202 to zero.

Therefore, in the initial stage when the power supply Vcc is input, the power supply Vcc is input to the first level shifter 201 and the second level shifter 202 is inputted with the voltage of the capacitor 204a. The output of 202 is one. The output signal of the first level shifter 201 is inverted to zero by the inverter 203a, and the output signal of the second level shifter 202 is output to 1 via a flip-flop. The two signals are logically processed by the NOR gate 203c so that the power supply control signal of the output terminal is zero.

At this time, the power supply signal 302 is recognized by the main board 303 and the power is supplied to the main board 303 to start the booting of the computer.

After a while, when the capacitor 204a is discharged, the input of the second level shifter 202 becomes 0, the output signal thereof becomes 0, and the output of the flip-flop becomes 0. Accordingly, the output signal 1 of the first level shifter 201 and the output signal 0 of the flip-flop are input to the NOR gate 203c, and the power control signal of the output terminal of the NOR gate 203c becomes 1.

Here, the initial zero power control signal serves as a trigger signal by turning on the power switch, and when the power supply is operated and the computer starts to reboot, the power control signal is kept at zero, and then the power control signal When the signal is shaken, a signal of 0 is generated during system operation, which may cause the power supply (Vcc) to turn on and off. Therefore, change the power control signal to 1 to maintain the value to enable stable power supply. do.

The power supply system employing the power supply circuit according to the present invention as described above will be briefly described.

3 is a block diagram showing a power supply system employing a computer power control circuit according to the present invention.

Referring to FIG. 3, the power switch 301 and the power supply 302 are connected to the main board 303, and the output terminal of the power switch 301 and the output of the power control circuit 304 according to the present invention are the same. It is connected. In addition, the connection between the power supply device 302 and the power supply control circuit 304 is a jumper 305 or the like to select whether or not to use the operation of the power supply control circuit 304. To be able.

In the power supply system, basic on and off operations are performed by the power switch 301. However, after the computer is turned off due to sudden power supply (Vcc) interruption such as a power failure, when the power supply (Vcc) is supplied again, a zero power control signal of the power control circuit 304 is output at the initial stage. The power control signal serves as a trigger signal by turning on the power switch 301. In the main board 303, the power supply device 302 is operated by the power control signal to supply power (Vcc) to the computer. Will start booting.

As described above, the power control circuit for a computer according to the present invention can automatically boot when the power is cut off due to a power failure or the like.

Therefore, in a monitoring system such as a DVR or a system where continuity of the system is important, even if the user is absent, the power is cut off and the computer is automatically booted when the power is supplied again after the power is turned off. .

Claims (3)

First level adjusting means and second level adjusting means for adjusting a level of a signal input from a power source; A logic processing unit for generating a power supply control signal by logic processing the output signals of the first level adjusting means and the second level adjusting means; And And an initial signal control unit connected to an input terminal of the second level adjusting means to control an input signal. The method of claim 1, The logic processor is configured to logically process an inverter for inverting the output signal of the first level adjusting means, a flip-flop for latching the output signal of the second level adjusting means, and an output signal of the inverter and the flip-flop to provide a power control signal. A power supply control circuit for a computer, characterized by comprising a NOR gate for generating. The method of claim 1, The initial signal control unit is connected to an input terminal of the second level adjusting means and is connected in parallel with a capacitor for instantaneously charging a charge when the power is supplied and the charged capacitor discharges the capacitor to input the second level adjusting means. A power supply control circuit for a computer, comprising a transistor for controlling a signal.