KR101230378B1 - Apparatus for controlling on/off function of atx system - Google Patents

Abstract

An apparatus for controlling the on / off function of an ATX system according to the present invention is disclosed.
An apparatus for controlling a power on / off function of the ATX system according to the present invention includes a power switch for turning on or off the power of the ATX system; A chipset for generating a signal for supplying power according to an operation of the power switch; And an ATX power supply for supplying power in accordance with the generated signal. And a standby circuit which receives standby power from the ATX power supply when the power is turned off, detects a state of the power switch, and turns on the chipset when the power switch is pressed as a result of the detection.
Through this, the present invention can significantly reduce the consumption of standby power.

Description

A device for controlling the on / off function of the AT system {APPARATUS FOR CONTROLLING ON / OFF FUNCTION OF ATX SYSTEM}

The present invention relates to an ATX system, in which the ATX system cuts off standby power supplied to the chipset to control the on / off function of the system in a power off state and enables the on / off function to be controlled in a separate standby circuit. A device for controlling the on / off function of a.

In general, an ATX (Advanced Technologies eXtension) system refers to a system equipped with an ATX power supply, for example, a PC or a measurement device equipped with a Windows operating system.

1 is an exemplary view showing a power control device of an ATX system according to the prior art.

As shown in FIG. 1, the power control apparatus of the ATX system according to the related art includes an ATX power supply 110, a CPU 120, a first peripheral circuit 130, a chipset 140, and a second peripheral. And a circuit 150 and a power switch 160.

The conventional power control device configured as described above has a standby power + 5V or power supply to the chipset 140 and the second peripheral circuit 150 to maintain the power on / off function in the power off state or the standby state or to implement a LAN or USB function. + 12V must be supplied.

For example, when the user presses the power switch, the chipset 140 receives the PWR_BTN signal from the power switch 160 and sends a PS_ON signal to the ATX power supply 110 to supply the ATX power supply 110 to the first peripheral circuit 120. To supply. For this operation, power must be basically supplied to the chipset 140.

In order to maintain the power on / off function, the chipset and peripheral circuits consume about 10% power even when the power is not turned on in the ATX system.

Therefore, to solve the problems of the prior art, an object of the present invention is to turn off the standby power supplied to the chipset to control the on / off function of the system in the power off state and its on / off function in a separate standby circuit It is to provide an apparatus for controlling the power of the ATX system that can control the.

However, the objects of the present invention are not limited to those mentioned above, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above objects, an apparatus for controlling a power on / off function of the ATX system according to an aspect of the present invention comprises a power switch for turning on or off the power of the ATX system; A chipset for generating a signal for supplying power according to an operation of the power switch; And an ATX power supply for supplying power in accordance with the generated signal. And a standby circuit which receives standby power from the ATX power supply when the power is turned off, detects a state of the power switch, and turns on the chipset when the power switch is pressed as a result of the detection.

Preferably, the power switch comprises: a first switch connected to the chipset; And a second switch connected to the ATX power supply, wherein the first switch and the second switch are simultaneously turned on or off.

Preferably, the power switch is characterized by using a two-phase momentary type switch (momentary type switch).

Preferably, the standby circuit is connected to the first switch to turn on / off the chipset, and the second switch is characterized in that to turn on / off the ATX power supply.

Preferably, the standby circuit is implemented by a transistor and a passive element capable of receiving the standby power.

Preferably, when the power switch is pressed, the standby circuit charges power input through a predetermined resistor to a capacitor, but the power to be charged is increased at a constant rate to turn on the chipset.

Through this, the present invention breaks the standby power supplied to the chipset to control the on / off function of the system in the power off state and controls the on / off function in a separate standby circuit, thereby dramatically reducing the consumption of standby power. There is an effect that can be reduced.

1 is an exemplary view for explaining a power control method of an ATX system according to the prior art.
2 is an exemplary view showing a power control apparatus of an ATX system according to an embodiment of the present invention.
3 is an exemplary view showing a detailed configuration of the standby circuit 170 shown in FIG.
4 is an exemplary diagram illustrating a timing diagram at power on according to an exemplary embodiment of the present invention.
5 is an exemplary diagram illustrating a timing diagram at power off according to an exemplary embodiment of the present invention.

Hereinafter, with reference to Figures 2 to 5 attached to the apparatus for controlling the on / off function of the ATX system according to an embodiment of the present invention. It will be described in detail focusing on the parts necessary to understand the operation and action according to the present invention. Like reference numerals in the drawings denote like elements throughout the specification.

In the present invention, in order to control the on / off function of the ATX (Advanced Technologies eXtension) system in the power off state, to cut off the standby power supplied to the chipset and peripheral circuits, and to control the on / off function in a separate standby circuit. Suggest ways to do it. Here, ATX (Advanced Technologies eXtension) system refers to a system equipped with an ATX power supply, for example, a PC or a measuring device equipped with a Windows operating system.

2 is an exemplary view showing a control device of an ATX system according to an embodiment of the present invention.

As shown in FIG. 2, the control apparatus of the ATX system according to the present invention includes an ATX power supply 110, a central processing unit (CPU) 120, a first peripheral circuit 130, and a chipset. ), The second peripheral circuit 150, the power switch 160, the standby circuit 170, and the like.

The ATX power supply 110 may supply power to the ATX system in a power-on state, and standby power + 5V or + to maintain power on / off function or to implement a LAN or USB function even in a power off state or a standby state. 12V or the like can be supplied to the standby circuit 170.

When the power switch 160 is pressed by the user to the power-on state, the PWR_BTN signal is transitioned from the low state to the high state so that the chipset 140 is turned on, and the PS_ON signal is transmitted from the chipset 140. The ATX power supply 110 may be turned on by transitioning from a low state to a high state. Thus, when power is supplied from the ATX power supply 110, the CPU 120 may interwork with the first peripheral circuit 130 to perform various functions.

When the power switch 160 is pressed by the user to the power-off state, a transition signal for powering off from the OS is transmitted to the chipset 140 and the chipset 140 transmits the PS_ON signal from high to low. Transition to the ATX power supply 110 may be turned off.

At this time, the standby power supplied to the chipset, the second peripheral circuit, etc. in the power off state may be cut off and supplied to a separate standby circuit 170 including TR and passive elements. Thus, when the power switch 160 is pressed again by the user, the standby circuit 170 generates a PS_BTN signal and applies the generated PS_BTN signal to the ATX power supply 110, whereby the ATX power supply 110 generates a CPU 120. ) And the first peripheral circuit 130.

That is, the standby circuit 170 receives the standby power from the ATX power supply 110 when the power is off, detects the state of the power switch, and turns on the chipset 140 when the power switch is pressed as a result of the detection. have.

The power switch 160 may be implemented as a first switch SW1 for applying the PWR_BTN signal to the chipset 140 and a second switch SW2 for applying the PS_ON signal to the ATM power supply 110. The first switch SW1 and the second switch SW2 may be driven at the same time.

For example, the switch may be a two-phase momentary type switch.

3 is an exemplary view showing a detailed configuration of the standby circuit 170 shown in FIG.

As shown in FIG. 3, the standby circuit 170 according to the present invention may be configured by a small number of TRs and passive elements such as resistors R, capacitors C, and the like.

1) In the initial state, the standby power source and the PS_ON signal may be in a high impedance state.

 When the first switch SW1 is pressed by the user, +3.3 may be input through the resistor R3 to charge the capacitor C1. Since the power charged to capacitor C1 increases at a constant rate, the PWR_BTN signal can transition from a low state to a high state and applied to the chipset.

Thus, in the chipset, the PWR_BTN signal may transition back to the low state because the PS_ON signal transitions from the low state to the high state and the transistor TR1 is turned on.

Afterwards, when the user releases the power switch, the power switch is opened and the PWR_BTN signal becomes high and the PS_ON signal is kept high.

2) In the initial state, the transistor TR3 is turned on, so the PS_ON signal may be low.

At the same time, when the second switch SW2 is pressed, since the transistor TR2 is turned on and the transistor TR3 is turned off, the PS_ON signal is transitioned from a low state to a high state so that the ATX power supply can be turned on.

After that, when the user releases the power switch, the power switch is opened and the PS_ON signal is kept high. That is, the ATX power supply can be turned on.

4 is an exemplary diagram illustrating a timing diagram at power on according to an exemplary embodiment of the present invention.

As shown in FIG. 4, the control apparatus according to the present invention shows a timing diagram when the control device transitions from the power-off state to the power-on state according to the operation of the power switch.

In the period T1 to T2: the operation after the switch is pressed by the user, referring to FIG. Charging may begin on the capacitor C1 on the path that is powered on and connected to the first switch SW1.

Interval T2 to T3: The chipset detects the state transition of the PWR_BTN signal, that is, the transition from the low state to the high state, so that the PS_ON signal can be transitioned from the low state to the high state. When the PS_ON signal transitions from the low state to the high state (3.3V), the transistor TR1 is turned on and discharge occurs in the capacitor C1 so that the PWR_BTN signal may transition from the high state to the low state.

After interval T3: When the user releases the switch, the power to the ATX power supply because the PS_ON signal on the path connected to the second switch SW2 is high and transistor TR2 is on and transistor TR3 is off to maintain the PS_ON signal high. This can be on.

5 is an exemplary diagram illustrating a timing diagram at power off according to an exemplary embodiment of the present invention.

As shown in FIG. 5, the control device according to the present invention shows a timing diagram when the control device transitions from the power-on state to the power-off state according to the operation of the power switch.

Interval T1 to T2: When the switch is pressed and released by the user, a transition signal for powering off from the OS may be transmitted to the chipset.

After T2: The chipset can transition the PS_ON signal from a high state to a low state to power off the ATX power supply to implement a soft off mechanism.

As described above, the present invention breaks down the power supplied to the chipset in order to control the on / off function of the system in the power off state and controls the on / off function in a separate standby circuit, thereby dramatically reducing the consumption of standby power. Can be reduced.

Various modifications and variations will be apparent to those of ordinary skill in the art to which the apparatus for controlling the on / off function of the ATX system according to the present invention belongs without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

110: ATX power supply
120: CPU
130: first peripheral circuit
140: chipset
150: second peripheral circuit
160: power switch
170: standby circuit

Claims (6)

A power switch for turning on or off the power of the ATX system;
A chipset for generating a signal for supplying power according to an operation of the power switch;
An ATX power supply for supplying power in accordance with the generated signal; And
A standby circuit which receives standby power from the ATX power supply when the power is off and detects a state of the power switch and turns on the chipset when the power switch is pressed as a result of the detection;
Including, wherein the power switch comprises: a first switch connected to the chipset; And a second switch connected to the ATX power supply, wherein the first switch and the second switch are turned on or off at the same time. delete The method according to claim 1,
The power switch is a device for controlling the power on / off function of the ATX system, characterized in that using a two-phase momentary type switch (momentary type switch). The method according to claim 1,
The standby circuit,
Connected to the first switch to turn on / off the chipset, and to the second switch to turn on / off the ATX power supply. The method according to claim 1,
The standby circuit is a device for controlling the power on / off function of the ATX system, characterized in that implemented with a transistor and a passive element capable of receiving the standby power. The method of claim 5,
The standby circuit,
When the power switch is pressed, the power input through a predetermined resistor is charged to the capacitor, but the power to be charged is increased at a constant rate to control the power on / off function of the ATX system, characterized in that to turn on the chipset. Device for

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