KR100443272B1 - Apparatus for removing remain voltage in system - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a device for removing residual potential in a system.

2. Technical problem to be solved by the invention

The present invention forcibly discharges the residual potential present in the decoupling capacitor in the system to shorten the time required for the reoperation of the system to prevent malfunction of the system and to solve the inconvenience of waiting for the user. The purpose is to provide a device for removing residual voltage in a battery.

3. Summary of the Invention Solution

The present invention provides a residual potential removing apparatus in a system, comprising: power sequencing control means for sequentially outputting a control signal for supplying power input through a power input terminal and removing residual potential in the system; Power supply switching means for supplying power into the system by switching operation by a control signal input from the power sequencing control means; And residual potential removing means for switching operation by a control signal input from said power sequencing control means to discharge residual potential in the system.

4. Important uses of the invention

The present invention is used for power discharge and reset of a system.

Description

Apparatus for removing remain voltage in system

The present invention relates to a residual voltage removing device in a system, and more particularly, to a residual voltage removing device in a system for continually discharging the residual voltage present in a decoupling capacitor in the system when the system is powered off. .

In general, portable systems, notebooks and desktops have many power planes inside, and each plan has many decoupling capacitors.

1A is an exemplary view illustrating a configuration of a power switch used in a general system.

That is, as shown in FIG. 1A, when power is turned on through the power input terminal, the power supply switching unit 10 is switched to an on state so that V3 power and V5 power are supplied to the system side.

At this time, the system is driven by receiving the V3S power and V5S power.

Usually, when the power supply of the system is cut off during operation, a discharge means is provided at the power input terminal to prevent a malfunction due to the power remaining in the circuit.

However, the conventional discharging means is also located at the power supply input terminal, so that the electric potential present in the decoupling capacitor existing in the system cannot be discharged, so that the reset operation is not applied to the system or the malfunction may occur.

That is, as shown in FIG. 1B, even if the power system is turned off during operation by the decoupling capacitor present therein, the potential present in the decoupling capacitor is not fully satisfied after a certain time has elapsed. Discharged.

Therefore, the system puts a control condition in order to ensure a time for discharging the potential present in the system completely when the operating power is turned off, so that the power is turned on again after a predetermined time. There was the inconvenience of waiting for unnecessary time.

Accordingly, the present invention has been made to solve the above-mentioned conventional inconvenience, forcibly discharge the residual potential present in the decoupling capacitor in the system to shorten the time required for the re-operation of the system to the user's standby It is an object of the present invention to provide a device for removing residual voltage in a system to solve the inconvenience.

1A is an exemplary configuration diagram of a power switch used in a general system.

1B is a graph of residual voltage in a typical system.

Figure 2 is an embodiment configuration of the residual voltage removing device of the system according to the present invention.

Figure 3 is another embodiment configuration of the device for removing the residual potential of the system according to the present invention.

※ Explanation of code for main part of drawing

100: power sequencing control unit 110: power supply switching unit

105: power supply delay unit 125: potential removal delay unit

120: first residual potential removing unit 130: second residual potential removing unit

In order to achieve the above object, the present invention provides a residual potential removing apparatus in a system, comprising: power sequencing control means for sequentially outputting a control signal for supplying power input through a power input terminal and removing residual potential in the system; Power supply switching means for supplying power into the system by switching operation by a control signal input from the power sequencing control means; And residual potential removing means for switching operation by the control signal input from the power sequencing control means to discharge the residual potential in the system.

On the other hand, the present invention provides a residual potential removing device in a system, comprising: power supply switching means for supplying drive power into the system by switching operation by a control signal input from the outside; And a residual potential removing means for removing the residual potential in the system by switching to an on state when the power supply switching means is turned off.

Best Mode for Carrying Out the Invention Preferred embodiments of the residual potential removing apparatus in the system according to the present invention will now be described in detail with reference to the accompanying drawings.

2 is an embodiment configuration diagram of a device for removing residual potential of a system according to the present invention.

As shown in FIG. 2, the residual potential removing device may include a power supply delay unit 105, a power supply switching unit 110, a first residual potential removal unit 120, a potential removal delay unit 125, and And a residual residual removal unit 130.

Here, the power supply delay unit 105 includes resistors Ra, Rb, Re, and Rf, and diodes D1 and D2, and the potential elimination delay unit 125 includes resistors Rc and Rd. .

The power supply delay unit 105 transmits a power on / off signal supplied from a power input terminal (not shown) to the power supply switching unit 110 after a predetermined time delay.

The power supply switching unit 110 operates by switching the power source on / off signal input through the power supply delay unit 105 to interrupt the power supply in the system.

The first residual potential removing unit 120 and the second residual potential removing unit 130 are switched by the power on / off signal delayed for a predetermined time through the potential removing delay unit 125 to interrupt the residual potential discharge in the system. do.

That is, when the power-on signal is input from the power input terminal, the low signal is input to the power supply delay unit 110 and the potential removal delay unit 125 at the same time.

Here, the value of the resistor Rc of the potential removal delay unit 125 is smaller than the value of the resistance Rb of the power supply delay unit 110, and the value of the resistance Rd of the potential removal delay unit 125 is reduced. The value is smaller than the value of the resistor Rf of the power supply delay unit 110.

Therefore, after the first residual potential removing unit 120 and the second residual potential removing unit 130 are first turned off by the low signal, the power supply switching unit 110 is turned on by the low signal. As a result, power (V3, V5) of the power supply stage is transferred into the system to drive the system. In this case, the first residual potential removing unit 120 and the second residual potential removing unit 130 are maintained in an off state.

On the other hand, when a high signal that is a power-off signal is input from the power input terminal, the high signal is simultaneously input to the power supply delay unit 110 and the potential removal delay unit 125, respectively.

Here, the value of the resistance Ra of the power supply delay unit 105 is smaller than the value of the resistor Rb and the resistance Rc of the potential removal delay unit 125, and the resistance of the power supply delay unit 105 is reduced. The value of Re is smaller than the value of the resistor Rf and the resistor Rd of the potential removal delay unit 120.

Therefore, the power supply switching unit 110 is first switched off to the high signal input through the power supply delay unit 105, and then the first residual potential removing unit 120 and the second residual potential removing unit. The 130 is switched to the on state by the high signal input through the potential elimination delay unit 125.

Thus, the system that was supplied with the V3S power supply and the V5S power supply is stopped, and the residual potential present in the decoupling capacitor in the system is grounded, and is quickly removed.

Figure 3 is another embodiment configuration of the residual voltage removing device of the system according to the present invention.

As shown in FIG. 3, the residual voltage removing device may include a power sequencing controller 100, a power supply switching unit 110, a first residual potential removing unit 120, and a second residual potential removing unit 130. Include.

The power sequencing control unit 100 is installed at a rear end of a power input terminal (not shown: connected to the V3 and V5 stages) to supply the power supply switching unit 100, the first residual potential removing unit 120, and the second residual potential agent. The sequential switching operation of the rejection 130 is controlled.

That is, when the power sequencing control unit 100 is powered into the system by powering on. The first residual potential removing unit 120 and the second residual potential removing unit 130 are turned on to prevent the applied power supply from being discharged.

The first residual potential removing unit 120 switches by a driving control signal input from the power sequencing control unit 100 to discharge the residual potential to a decoupling capacitor in a system operating with a V3S power supply when the power is turned off. do.

The second residual potential removing unit 130 is switched by a drive control signal input from the power sequencing control unit 100 to discharge the residual potential to a decoupling capacitor in a system operating with a VS5 power source when the power is turned off. do.

Hereinafter, the discharge operation of the residual potential in the system will be described in detail.

First, when a power-on signal is input from a power input terminal, the power sequencing controller 100 first applies a low signal to the first residual potential removing unit 120 and the second residual potential removing unit 130, and then a predetermined time is applied. After the delay, a low signal is applied to the power supply switching unit 110.

Accordingly, the power supply switching unit 110 is switched to the on state while the first residual potential removing unit 120 and the second residual potential removing unit 130 are kept in the off state, and thus the power source V3.V5 is turned off. It is supplied into the system through the power supply switching unit 110. That is, the power is stably supplied into the system without being grounded by the first residual potential removing unit 120 and the second residual potential removing unit 130. At this time, the power sequencing controller 100 continuously transmits the low signal to the first residual potential removing unit 120, the second residual potential removing unit 130, and the power supply switching unit 110 while the power on signal is maintained. Is authorized.

On the other hand, when the power is turned off from the power input terminal, the power sequence controller 100 first applies a high signal to the power supply switching unit 110, and after a predetermined time is delayed, the first residual potential removing unit 120 and The high signal is applied to the second residual potential removing unit 130.

Therefore, when the power supply switching unit 110 is turned off and no more power is applied into the system, the first residual potential removing unit 120 and the second residual potential removing unit 130 switch to the on state. The residual potential in the system is then grounded.

That is, the system that was supplied with the V3S power supply and the V5S power supply shuts down, and the residual potential in the decoupling capacitor in the system is grounded and quickly removed.

At this time, the power sequencing control unit 100 continuously transmits the high signal to the first residual potential removing unit 120, the second residual potential removing unit 130, and the power supply switching unit 110 while the power off signal is maintained. Is authorized. Thus, the residual potential in the system is removed to ground while power is not supplied to the system.

Here, the present invention is described as being limited to the first current potential removing unit 120 and the second residual removing unit 130 as a means for removing the residual potential in the system, but removing the residual potential for each voltage used in the system. It is preferable to install a part.

As mentioned above, preferred embodiments of the present invention are disclosed for the purpose of illustration, and those skilled in the art can improve and change various other embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. , Replacement or addition would be possible.

The residual potential removing device in the system as described above is forcibly discharging the residual potential present in the decoupling capacitor in the system when the driving power is turned off to the system to prevent the system from malfunctioning and to restart the system. It is a useful invention that can shorten the time required to solve the inconvenience of the user waiting.

Claims (6)

In the residual potential removing device in the system, Power sequencing control means for sequentially outputting a control signal for supplying power input through a power input and removing residual potential in the system; Power supply switching means for switching operation by a control signal input from said power sequencing control means to supply power to the system; And And a residual potential removing means for switching operation by the control signal input from the power sequencing control means to discharge the residual potential in the system, The power sequencing control means first turns off the residual potential removing means when power is supplied, and then controls the power supply switching means to an on state so that power is supplied into the system, and when the power is turned off, the power supply switching. And after the means are first turned off, the residual potential removing means is controlled in an on state so that the residual potential is removed in the system. delete In the residual potential removing device in the system, A power supply delay unit for outputting a control signal inputted to the outside by a predetermined time delay, and a power supply switching unit for controlling power supply in the system by switching by a control signal delayed by the power supply delay unit Power supply switching means; And A residual including a potential removing delay unit for delaying and outputting a control signal input from the outside for a predetermined time and a residual potential removing unit for removing residual potential in the system by switching by a control signal delayed from the potential removing delay unit; Residual dislocation removal device in a system comprising dislocation removal means. delete delete The method of claim 3, wherein At the time of power supply, the residual potential removing means is first turned off, and then the power supply switching means is turned on to supply power to the system. When the power supply is turned off, after the power supply power supply switching means is first turned off, the residual potential removing means is turned on to remove the residual potential in the system.