KR19980021807U - Power supply control device of computer system - Google Patents

Abstract

The present invention relates to a power supply control device of a computer system to have a main power switch that can cut off the power supplied to the microcomputer that controls the power supply in a computer system, the computer system having an instant on switch and a remote control power switch A power supply control device for supplying power to a power supply, comprising: a main power switch that supplies or cuts input power, and receives a signal from an instant on switch and a remote control power switch to turn on the main power switch; A first power supply controller for outputting a signal for distinguishing whether the power switch is on; a second power supply for controlling the signal of the instant on switch and the remote controller and the output of the keyboard controller; Power supply controller, phase It is characterized by consisting of a power supply for supplying power to the computer system according to the control signal of the second power supply controller, to prevent the power supply without removing the power cord or battery when the computer system is not used for a long time The purpose is.

Description

Power supply control of computer system.

The present invention relates to a power supply control device for a computer system, and more particularly to a power supply control device for a computer system to put a main power switch that can cut off the power supplied to the microcomputer to control the power supply in the computer system.

In the case of a conventional computer, a mechanical power switch is used to supply power to a system or an electric switch is used when a mechanical power switch is not used. It is provided. In this case, the power is supplied to the microcomputer whenever the power cord or battery is connected.

1 is a block diagram for implementing an instant on switch of a conventional computer system. As shown here, the conventional computer system includes a microcomputer 12, an instant on switch 11, and a power source. The power supply 13 for and the power supply 14 for logic are provided separately. That is, the instant on switch 11, the power source 13 for the microcomputer and the power source 14 for the logic are independently connected to the microcomputer 12 is configured.

In a conventional computer system configured as described above, power is always supplied to the microcomputer 12 when power is supplied from a power cord or a battery, and the microcomputer 12 has an independent power supply and is always in a power-on state. It is supposed to be. In this case, when the power switch is pressed, the microcomputer receives this signal to determine whether the signal is turned on or off, and supplies the corresponding signal to the power for the logic to supply or cut off the power.

In the conventional system as described above, if a power cord or a battery is always connected, there is a problem that power is unconditionally supplied to the microcomputer from the power source for the microcomputer 12. In order to overcome this problem, the microcomputer 12 operates in a power down mode when there is no input for a predetermined time even when power is currently supplied, thereby saving a considerable amount of power. However, even in this case, since the minimum power for the operation of the microcomputer must be supplied, such power needs to be cut off if necessary.

The technical problem of the present invention is to provide a main power switch that can cut off the power supply to the microcomputer, so that the power is not continuously supplied to the unused system without removing the power cord or the battery when it is not used for a long time. will be.

1 is a block diagram showing a power supply control apparatus of a conventional computer system.

Figure 2 is a block diagram for implementing a power supply control device of the present invention computer system.

3 is a circuit diagram of a first logic means constituting a power supply control device of the inventive computer system.

4 is a circuit diagram of a second logic means constituting a power supply control device of the inventive computer system.

Explanation of symbols for the main parts of the drawings

21: Instant On Switch 22: Remote Control Power Switch

23: first logic means 24: keyboard controller

25: micom 26: second logic means

27: power supply 28: main power switch

In order to achieve the above object, the power supply control apparatus for a computer system according to the present invention is a power supply control apparatus for supplying power to a computer system including an instant on switch 21 and a remote control power switch 22, the input power supply The main power switch 28 for supplying or cutting off the power supply, and the signal of the instant on switch 21 and the signal of the remote control power switch 22 are input to turn on the main power switch 28. Or a first power supply controller for outputting a signal for distinguishing whether the remote controller power switch 22 is turned on, a signal of the instant on switch 21, a signal of the remote controller power switch 22, and the first power supply controller. A second power supply controller that outputs a control signal to turn on or off the power by receiving an output of the power supply, and a computer according to a control signal of the second power supply controller. It characterized by consisting of a power supply for powering the system.

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

2 is a block diagram of a garden supply control device of the present invention computer system, as shown in the power supply control device of the present invention computer system compared to the instant on-switch in the conventional computer system ( 13) and the power source 14 for logic are integrated into a single power supply 27 for the microcomputer and the logic, and the input power is supplied by the main power switch 28.

Also, the first power supply controller receives the signal of the instant on switch 21 and the signal of the remote control power switch 22 to turn on the main power switch 28 or the instant on switch 21 or the remote control power switch 22. The second power supply controller may recognize a key input signal of the computer system, including a first logic means 23 for outputting a signal for distinguishing whether the signal is on, and a signal output from the first logic means 23. The second power supply controller is configured to receive a signal of the instant on switch 21 and the signal of the remote control power switch 22 and the output of the keyboard controller 24 to supply power. The microcomputer 25 for controlling the power supply of the computer system outputting a control signal for turning on and the control signal for turning off the power, and the control signal for turning off the power and the control signal for turning off the power output from the microcomputer 25 Receives consists of a second logic means (26) for turning on or turning off the control or output signal power.

The signal of the instant on switch 21 and the signal of the remote control power switch 22 are input not only to the microcomputer 25 but also to the first logic means 23. The first logic means 23 receives the input of the instant on switch 21 and the remote control power switch 22 and checks whether the main power switch 28 is in the off state and sends the result to the keyboard controller 24. Output

FIG. 3 is a circuit diagram of the first logic means constituting the instant on switch of the inventive computer system. As shown here, the signal of the instant on switch 21 and the signal of the remote controller power switch 22 are the AND gates. 31 is input to the clock terminal of the de-flop 32, the data input terminal is grounded, and the clear terminal is connected to the power supply. The preset terminal is connected to ground via capacitor C 34 and to a power supply via resistor R 33. Accordingly, since the first logic means 23 has a constant time constant RC by the capacitor C 34 and the resistor R 33 connected to the preset terminal when the power is first applied, the applied voltage of the preset terminal is increased so that the first flip means 23 is flipped off. The output of the flop 32 is preset. Also, if there is an input of the instant on switch 21 or the remote control power switch 22, this signal is inputted through the AND gate 31 to the clock terminal of the de-flop 32, and the de-flop 32 is connected to the clock input. Data input (ground) is output.

The output of the first logic means is input to the keyboard controller 24 and the keyboard controller 24 outputs the key input of the computer system as a signal that can be recognized by the microcomputer 25. The microcomputer 25 receives the output of the keyboard controller 24 together with the signals of the instant on switch 21 and the remote controller power switch 22 and receives a signal for controlling the power according to the second logic means 26. Output The second logic means 26 receives an auto-risium signal and an off-transmission signal from the microcomputer 25 to control the output of the power supply 27.

FIG. 4 shows a circuit of a second logic means constituting an instant on switch of the inventive computer system. As shown here, an auto-lithium signal is input to a preset terminal through an inverter 41 and an off-transmission signal. Is connected to the clear terminal via the inverter 42. The data input terminal and the clock input terminal are grounded. Therefore, the second logic means 26 firstly outputs the power by supplying the auto-lithium signal to the pre-flip flop 46 to make the output of the second logic means 26 high. Do it. In addition, the off-transmission signal clears the de-flip flop 46 so that the output of the second logic means 26 is LOW so that the power supply 27 does not output power.

It will be described the operation of the embodiment of the present invention configured as described above.

Initially, when the main power switch 28 is turned on by connecting the power cable, the system proceeds with the initialization process. At this time, when the main power switch 28 is turned on as in the first logic means 23 shown in FIG. The flop 32 is preset and outputs high, and the keyboard controller 24 receives this output and has a high state. The flop 32 receives this output and sets the value of this port while the BIOS is performing a post. If it is checked and it is high, it recognizes that the main power is turned on and turns it back on. In addition, I.VCS gives a command to turn off other power besides I_VCC to turn off the power of other logic and only the microcomputer power remains. The state is referred to as a standby state, and when the output of the de-flip flop 32 is in the low state, it is recognized as being turned on by the remote controller power switch 22 or the instant on switch 21 of the system. The boot process is supposed to continue.

When the remote controller power switch 22 or the instant on switch 21 of the system is pressed in the standby state, when the microcomputer generates an auto-risium signal as shown in FIG. By connecting in a preset manner, the output of the de-flip-flop 46 is made high to turn on the power supply.

When the remote controller power switch 22 or the instant on switch 21 is turned on again, the microcomputer receives this signal and checks the current state and generates an off-transmission signal when the current state is turned on. Is connected to the clear terminal of the

The present invention is a computer system, but the power supply is unconditionally supplied to the power-related microcomputer, the main power switch that can cut off the power to be adjusted as needed by the user can have convenience.

In addition, the present invention is powered again when the power supply of the system is out of power again, the power supply of the system even if you do not want in the case of the system that does not block the supply of the general VCC by the power supply of the entire system. It is supposed to work, but in the present invention can effectively prevent this.

Claims (5)

A power supply control device for supplying power to a computer system having an instant on switch and a remote control power switch, A main power switch for supplying or disconnecting input power; First power supply control means for receiving a signal of an instant on switch and a remote control power switch and outputting a signal for discriminating whether the main power switch is turned on or the instant on switch or the remote control power switch is turned on; Second power supply control means for receiving a signal of an instant on switch and a remote control power switch and an output of the keyboard controller and outputting a control signal for turning on or off the power; And a power supply means for supplying power to the computer system according to the control signal of the second power supply control means. According to claim 1, wherein the first power supply control means, First logic means for receiving a signal from an instant on switch and a remote control power switch and outputting a signal for distinguishing whether the main power switch is turned on or the instant on switch or the remote control power switch is turned on; And a keyboard control means for outputting a key input signal of the computer system as a signal recognizable by the second power supply control means, including the signal output from the first logic means. Device. The method of claim 1, wherein the second power supply control means, A microcomputer for controlling a power supply of a computer system that receives a signal of an instant on switch, a signal of a remote control power switch, and an output of the keyboard control means, and outputs a control signal for turning on a power and a control signal for turning off a power; And a second logic means for receiving a control signal for turning on the power output from the micom and a control signal for turning off the power and outputting a control signal for turning on or off the power. The first logic means comprises a de-flip flop, and a signal of an instant on switch and a signal of a remote control power switch are input to the clock terminal of the de-flop flop through an AND gate, and the data of the de-flop flop. The input terminal is connected to ground, the clear terminal is connected to the power supply, the preset terminal is connected to the ground through the capacitor C, and the preset terminal is connected to the power supply through the resistor R. Device. 4. The second logic means according to claim 3, wherein the second logic means has a de-flip flop, and an auto-lithium signal from a microcomputer is input to a preset terminal of the de-flip flop through an inverter, and an off-transmission signal is transmitted through the inverter. And a data input terminal and a clock input terminal of the de-flip-flop, which are input to the clear terminal of the de-flop, and are grounded.