KR200147537Y1 - Reset switch dual power source switch apparatus - Google Patents

Abstract

A reset combined power switch unit that acts as a power switch when on / off for a short time and acts as a reset switch when pressed for longer than a predetermined time; A microcontroller for performing subroutine supply and interruption of system power in response to an output signal from a reset combined power switch; and a power transistor for supplying or interrupting system power by turning on / off according to an output signal of a microcontroller. Consists of; It acts as a power switch when the switch is turned on / off for a certain period of time, and as a reset switch when the switch is turned on / off for a certain period of time. Regarding reset switch combined use power switch apparatus which can have both.

Description

Power switch unit with reset switch

1 is a detailed circuit diagram of a conventional reset switch and a power switch device,

2 is a detailed circuit diagram of a reset switch combined power switch device according to an embodiment of the present invention,

3 is an operation waveform diagram of a power switch device for a combined reset switch according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: reset switch unit 20: power switch unit

30: microcontroller 40: reset switch power switch unit

The present invention relates to a power switch unit with a reset switch. More specifically, the switch operates as a power switch when the switch is turned on / off for a short time, and the switch is turned on for a longer time. In the case of turning on / off, the present invention relates to a power switch device with a reset switch capable of having both a power switch function and a reset switch function as one switch.

A power switch is provided on the outside of the computer in order for the user to operate it so that power required for the operation of the computer can be supplied from the outside. When the user turns on the above-mentioned power switch, the computer operates while power is supplied to each component circuit of the computer. On the contrary, when the user turns off the power switch, the computer is cut off when power is supplied to each component circuit of the computer. Operation is stopped.

As described above, a method of supplying and disconnecting power from a computer according to the on / off operation of a power switch can be largely divided into two methods.

First, the power switch is connected to the AC power supply line of the power supply, so when the power switch is turned off, the AC supply line of the power supply is turned on or off. It is commonly used in desktop top computers that are inter-device.

Secondly, when a power switch is turned on and off, a microcontroller detects the power switch and accordingly turns on and off the power transistor to perform power supply and cutoff. It is generally used in portable computers such as note book size personal computers (PCs) equipped with a converter.

The power supply control method by the control of the microcontroller used in the portable computer may not control the power supply even if the user operates the power switch when the microcontroller is in error operation. In order to eliminate the problem, a reset switch is provided.

Hereinafter, a conventional reset switch and a power switch device will be described with reference to the accompanying drawings.

1 is a detailed circuit diagram of a conventional reset switch and a power switch device.

As shown in FIG. 1, the structure of the conventional reset switch and the power switch device includes a reset terminal 10, a power switch 20, and a reset terminal at an output terminal of the reset switch 10. As shown in FIG. (/ RESET) is connected and the microcontroller 30 having the interrupt terminal (INT) connected to the output terminal of the power switch unit 20, and the gate terminal is connected to the output terminal (OUT) of the microcontroller 30 And a power transistor (FET) having a source terminal connected to the system power signal line (AC).

The configuration of the reset switch unit 10 includes a pull-up resistor R11 having one terminal connected to the power supply voltage Vcc, and the other terminal of the pull-up resistor R11 and ground. It consists of a reset switch (S11) and a capacitor (C11) connected to.

The configuration of the power switch unit 20 is connected between a pull-up resistor R2l having one terminal connected to the power supply voltage Vcc, and the other terminal of the pull-up resistor R2l and ground. A power switch 521.

The operation of the conventional reset switch and power switch device configured as described above is as follows. When the power supply voltage Vcc is applied, the capacitor C11 of the reset switch unit 10 is momentarily short-circuited and then braillely charged to increase the layer voltage. Therefore, initially, a low potential voltage signal is applied to the reset terminal (/ RESET) of the microcontroller 30 to reset the microcontroller 30, after which the microcontroller 30 supplies a power supply voltage Vcc. Normal operation will be performed until the authorization of. The power supply voltage Vcc is typically supplied through a separate power supply such as a backup battery.

In this way, when the microcontroller 30 is operating normally, when the user turns on / off the power switch 521 of the power switch unit 20 to supply system power (AC) to the computer, the microcontroller 30 The low voltage pulse voltage signal is applied to the interrupt terminal INT of the microcontroller 30 to interrupt the microcontroller 30.

When interrupted by the pulse output signal of the power switch 20, the microcontroller 30 internally performs a power supply service routine to apply the high potential output signal OUT to the gate terminal of the power transistor FET. do.

When a high potential voltage signal is applied from the microcontroller 30 to the gate terminal of the power transistor FET, the power transistor FET is driven to supply a system power source AC for operating the computer.

On the contrary, if the user turns on / off the power switch S21 of the power switch unit 20 once again to cut off the system power AC supplied to the computer, the user can save the signal to the interrupt terminal INT of the microcontroller 30. The potential pulse voltage signal is applied.

When the low potential pulse voltage signal is applied once more from the power switch unit 20, the microcontroller 30 internally performs a power supply service routine to output the low potential output signal OUT of the power transistor FET. It is applied to the gate terminal.

When a low potential voltage signal is applied from the microcontroller 30 to the gate terminal of the power transistor FET, the driving of the power transistor FET is cut off, thereby supplying a system power source AC for operating a computer. Is stopped.

Therefore, the power switch S21 of the power switch unit 20 operates in a toggle manner.

When the microcontroller 30 is operating normally, when the user turns on the reset switch S11 of the reset switch unit 10 to initialize the microcontroller 30, the capacitor ( As the C11) is discharged, the microcontroller 30 is initialized by applying a low-voltage voltage signal to the reset terminal / RESET of the microcontroller 30.

Therefore, the user can initialize the microcontroller 30 at any time, and in particular, even when the microcontroller 30 is in error operation, the microcontroller 30 can be normally operated by initializing the microcontroller 30. do.

However, the above-described conventional reset switch and power switch device has a inconvenience in that the user needs to turn on the reset switch in order to initialize the microcontroller.

In order to eliminate this inconvenience, a technique related to a device that can automatically reset the microcontroller when the microcontroller is performing an error operation is disclosed in Korean Utility Model Application Publication No. 89-3753 (Application Date: July 26, 1986 AD) was initiated in the automatic reset circuit in the case of a microcomputer malfunction.

When the microcomputer malfunctions, the automatic reset circuit detects when the microcontroller malfunctions by using a pulse signal output when the microcontroller operates normally, and automatically resets the microcontroller to provide a more convenient operation characteristic for the user. Have

However, the conventional reset switch and power switch device including the microcomputer malfunction automatic reset circuit as described above in the case of a microcomputer malfunction is reset to the user because the reset switch portion and the power switch portion are configured as independent circuits independent of each other. In order to provide both a switch and a power switch, two switches (reset switch and power switch) must be separately installed outside the computer.

This disadvantage causes a problem in that it is difficult to apply both a reset switch and a power switch that require relatively large installation space due to the limitation of the installation space in a portable computer such as a notebook PC.

Therefore, the object of the present invention is to solve the above-mentioned disadvantages, and it operates as a power switch when the switch is turned on / off for a short time, and resets when the switch is turned on / off for a longer time. By operating as a switch, a switch provides a power switch device with a reset switch that can have both a power switch function and a reset switch function.

The configuration of the present invention for achieving the above object is a reset combined power switch unit that acts as a power switch when turned on / off shorter than a predetermined time and as a reset switch when pressed for a longer time: A microcontroller configured to supply and cut off system power in response to an output signal from the set combined power switch unit; It is composed of a power transistor for turning on or off according to the output signal of the microcontroller to supply or cut off system power.

With reference to the accompanying drawings, a preferred embodiment that can easily implement this invention by the above-described configuration will be described in detail.

FIG. 2 is a detailed circuit diagram of the reset switch combined power switch device according to the embodiment of the present invention, and FIG. 3 is an operation waveform diagram of the reset switch combined power switch device according to the embodiment of the present invention.

As shown in FIG. 2, the configuration of the reset switch combined power switch device according to the embodiment of the present invention is provided at the output terminal of the reset combined power switch unit 40 and the reset combined power switch unit 40. A microcontroller 30 having a set terminal (/ RESET) and an interrupt terminal (INT) connected to each other, a gate terminal connected to an output terminal OUT of the microcontroller 30, and a source connected to a system power signal line AC. It consists of a power transistor (FET) with terminals connected.

In this embodiment of the present invention, parts having the same function and structure as the apparatus shown in FIG. 1 are denoted by the same reference numerals.

The configuration of the reset combined power switch 40 includes a resistor R41 connected between the power supply voltage Vcc and the interrupt terminal INT of the microcontroller 30 and the interrupt of the microcontroller 30. A reset combined power switch S41 connected between the terminal INT and ground, a resistor R42 having one terminal connected to the interrupt terminal INT of the microcontroller 30, and a resistor R42. Schmitt trigger (B4l) connected between the capacitor (C4l) connected between the other terminal and the ground, the connection point of the resistor (R4l) and capacitor (C4l) and the reset terminal (/ RESET) of the microcontroller 30 )

The function of the reset switch combined power switch device according to the embodiment of the present invention by the above configuration is as follows.

When the power supply voltage Vcc is applied, the capacitor C4l of the reset combined power switch unit 40 is temporarily shorted and then gradually charged, thereby increasing the charge voltage. Therefore, the microcontroller 30 is reset by applying a low voltage voltage signal to the reset terminal / RESET of the microcontroller 30 at an initial stage, and then the microcontroller 30 supplies the power supply voltage Vcc. It will continue its normal operation until the license is blocked. The power supply voltage Vcc is typically supplied through a separate power supply such as a backup battery.

In this way, when the microcontroller 30 is operating normally, the reset combined power switch unit 40 as shown by the A signal shown in FIG. 3A to supply the system power AC to the computer. If the reset combined power switch S41 is shorter than a predetermined time, a low voltage pulse voltage signal is applied to the interrupt terminal INT of the microcontroller 30, thereby interrupting the microcontroller 30. .

In this case, the discharge of the capacitor C41 is performed while the reset combined power switch S41 of the reset combined power switch unit 40 is turned on, so that the potential at the point B is set to (a) in FIG. Draw a waveform as shown in. However, even if the potential at the point B is changed by the capacitor C4l, the discharge time of the capacitor C4l is short, so that the potential of the capacitor C4l is not discharged below a certain voltage level. The signal C always remains in a high potential state as shown in Fig. 3A.

Therefore, the microcontroller 30 is not initialized because the high voltage state signal is applied to the reset terminal / RESET of the microcontroller 30.

When interrupted by the pulse output signal of the power switch 20, the microcontroller 30 internally performs a power supply service routine to apply the high potential output signal OUT to the gate terminal of the power transistor FET. do.

When a high potential voltage signal is applied from the microcontroller 30 to the gate terminal of the power transistor FET, the power transistor FET is turned on and driven to supply a system power source AC for operating a computer. .

On the contrary, in order to cut off the system power (AC) supplied to the computer, the user can briefly turn on / off the power switch S41 of the reset combined power switch unit 40 once again to interrupt the terminal of the microcontroller 30 ( The low potential pulse voltage signal is applied to INT).

When the low potential pulse voltage signal is applied once more from the reset combined power switch unit 40, the microcontroller 30 internally performs a power supply service routine to convert the low potential output signal OUT into a power transistor (FET). ) Is applied to the gate terminal.

When a low-potential voltage signal is applied from the microcontroller 30 to the gate terminal of the power transistor (FET), the power transistor (FET) is turned off and the driving is stopped so that the system power source (AC) for operating the computer is To be cut off.

Therefore, the reset combined power switch 541 of the reset combined power switch unit 40 operates in a toggle manner.

In the case where the microcontroller 30 is operating normally, in order for the user to initialize the microcontroller 30, the A signal and red reset combined power switch unit 40 shown in FIG. When the set combined power switch S41 is turned on / off longer than a predetermined time, a low voltage pulse voltage signal is applied to the interrupt terminal INT of the microcontroller 30, thereby interrupting the microcontroller 30. Therefore, the system power source AC supplied to the computer is cut off.

In the above case, the discharge of the capacitor C41 is performed while the reset combined power switch S41 of the reset combined power switch unit 40 is turned on, so that the potential at the point B is shown in FIG. Draw a waveform as shown in.

As described above, when the potential of the point B is changed by the capacitor C41, the discharge time of the capacitor C41 is long and the potential of the capacitor C41 is discharged below a constant voltage level. Thus, the output signal of the Schmitt trigger B4l ( C) shows a low potential pulse voltage signal as shown in (b) of FIG.

Accordingly, the microcontroller 30 is initialized by applying a low potential voltage signal to the reset terminal / RESET of the microcontroller 30.

When the microcontroller 30 is initialized, the user may once again turn on / off the reset combined power switch S41 of the reset combined power switch unit 40 so that the system power AC is supplied to the computer again. By turning on / off the reset combined power switch S41 for a long time, the microcontroller 30 is reset once more and the system power AC is supplied to the computer again.

Therefore, the user may initialize the microcontroller 30 at any time, and in particular, the microcontroller 30 may be normally operated by initializing the microcontroller 30 even when the microcontroller 30 is in error operation. do.

As described above, in an embodiment of the present invention, when the switch is turned on / off for a shorter time than a predetermined time, it operates as a power switch and when the switch is turned on / off for a longer time, One switch can provide both a power switch function and a reset switch function to provide a reset switch combined power switch device having an effect of minimizing the installation space of the switch. This effect of the invention can be used in the field of switch devices in portable computers.

Claims (2)

A computer system comprising a reset combine switch (S41) which is turned on / off by a user, and outputs a power supply signal when the reset combine switch (S41) is turned on / off for a shorter period of time. A reset combined power switch unit 40 for outputting a reset signal when the reset combined switch S41 is pressed longer than the predetermined time; A microcontroller configured to perform a system power supply and shutdown subroutine in accordance with the power supply signal and the reset signal; And a power supply control unit that is turned on / off according to an output signal of the microcontroller and supplies or cuts off system power. The capacitor C4l of claim 1, wherein the reset combined power switch 40 is charged by a current signal input through the resistors R4l and R42 when the power supply voltage Vcc is applied. And a reset combined power switch S41 for outputting a pulsed signal to the interrupt terminal of the microcontroller and discharging the capacitor C4l when turned on / off by a user. A power switch device with a reset switch including a Schmitt trigger (B4l) for shaping when the potential of the capacitor (C4l) changes.