KR100280731B1 - Microcomputer reset circuit using monostable multivibrator - Google Patents

Abstract

The present invention monitors a normal way when the latch or an error occurs during operation by the drive of the microcomputer stops relates to using a monostable multivibrator to the microcomputer reset circuit, and more particularly to the first power supply (B ⁺⁾ controls to power on the A switch stage consisting of a switch (SW) for generating an on / off signal, a microcomputer that receives a second power source (B ⁺ ), receives an on / off signal output from the switch stage, and controls a power control stage; A reset terminal that is connected to the reset terminal of the microcomputer by receiving a third voltage (B ⁺ ), and performs a reset of the microcomputer stably, and receives an on / off signal output from the switch terminal and receives the on / off signal once in the 2 dock. flip for generating a waveform-flop stage (flip-flop) and the fourth power supply (B ⁺⁾ for applying received the flip by a resistor (R3) and kaepesiteo (C3) - a constant on / off signal output from the flop stage A monostable multivibrator that adjusts and outputs the duty and is turned on according to the duty output from the monostable multivibrator and input to the reset terminal of the microcomputer from the reset terminal. There is a feature composed of a first transistor for shutting off the power supply.

Description

Microcomputer reset circuit using monostable multivibrator.

The present invention relates to a reset circuit of a monitor, and more particularly, to a microcomputer reset circuit using a monostable multivibrator for resetting the microcomputer by using a power switch when a latch or an error occurs and the microcomputer is stopped driving. It is about.

Generally, horizontal / vertical sync signals (V / H Sync) and video signals (R, G, B) output from a video card of a personal computer are received through a cathode rate tube (hereinafter, abbreviated as CRT). The monitor to be displayed is powered on or off by a digital power switch.

That is, referring to Figure 1, one end is grounded, the other end is composed of a switch (SW) for generating a power on / off signal by controlling the first power (B ⁺ ) input through the resistor (R1) Is connected to the switch terminal 10 and the microcomputer 20 to control the power control terminal 30 receives the on / off signal output from the switch terminal 10 and the reset terminal of the microcomputer 20 It is composed of a reset stage 40 for stably performing the reset of the microcomputer.

Referring to the operation process according to this configuration, when the switch of the switch stage 10 is turned on, when the low signal is pressed into the input terminal of the microcomputer, the microcomputer 20 receives it and outputs the power-on signal to the power control terminal 30 To turn on the monitor.

When the switch is turned on again, a low signal is input to the input terminal of the microcomputer 20, and the microcomputer receives the output signal and outputs a power off signal to the power control terminal 30 to turn off the power.

That is, each time the switch is turned on, the power of the monitor is repeatedly turned on or off.

In the power on / off method using the digital power switch, since the microcomputer 20 is reset only at the moment of inserting the AC input power cord, even if the power is turned on / off using the digital switch, It is not reset.

Therefore, when the latch or error occurs due to surge or transient, the microcomputer 20 is not reset, so the AC input is cut off using an AC input power cord to reset the microcomputer. After the supply again to reset the microcomputer 20 there is a problem that the user is accompanied by time (Loss) and inconvenience.

An object of the present invention is to solve the inconvenience of the user by providing a circuit for resetting the microcomputer using the power switch when the drive of the microcomputer is stopped due to the external or any influence of the monitor, that is, a latch or an error occurs. .

The present invention for realizing the above object, the switch stage consisting of a switch (SW) for generating a power on / off signal, and the microcomputer to control the power control stage by receiving the on / off signal output from the switch terminal A reset terminal connected to the reset terminal of the microcomputer to stably reset the microcomputer, and a flip-flop terminal receiving an on / off signal output from the switch terminal to generate an on / off waveform once in 2 docks; (Flip-Flop) and a monostable multivibrator for adjusting the on / off signal output from the flip-flop stage to a constant duty.

1 relates to a reset circuit of a microcomputer which is generally used.

2 relates to a reset circuit of a microcomputer according to the present invention,

3 shows a waveform diagram according to FIG. 2.

Hereinafter, the configuration and operation according to the present invention will be described in detail with reference to the accompanying drawings.

First, Figure 2 shows a circuit block diagram according to the invention, Figure 3 shows a waveform diagram according to FIG.

A switch stage 10 composed of a switch SW having one end grounded and the other end controlling the first power B ⁺ input through the resistor R1 to generate a power on / off signal; 2 input power (B ⁺ ), the microcomputer 20 to control the power control stage 30 by receiving the on / off signal output from the switch stage 10 and the third voltage (B ⁺ ) applied Is connected to the reset terminal of the microcomputer 20 is applied to the reset terminal 30 to perform a stable reset of the microcomputer (30).

In addition, a flip-flop 50 which receives an on / off signal output from the switch stage 10 and generates an on / off waveform once in two docks, and a fourth power source B ^+. ) Is a monostable multivibrator for adjusting the on / off signal output from the flip-flop stage 50 to a certain duty by a resistor R3 and a capacitor C3. 60).

Referring to the operation process according to such a configuration, in the state in which the microcomputer 20 is normally driven, a voltage having a predetermined magnitude, that is, a third voltage, is applied to the reset terminal of the microcomputer 20 unless the switch is turned on / off by the user. B ⁺ ) is stably applied through the reset stage 30.

When the switch SW is turned off from on, that is, when the power-off signal, that is, a low signal is output from the switch terminal 10 and input to the input terminal of the microcomputer 20, the microcomputer 20 is connected to the output terminal. The power off signal is output and applied to the power control stage 40.

Therefore, the power control stage 40 turns off the power of the monitor.

That is, the power of the monitor is turned on / off according to the on / off of the switch configured in the switch unit 10.

In addition, when the on / off signal generated by the switch of the switch stage 10 is applied to the flip-flop stage 50, as shown in the waveform diagram (B) of FIG. The waveform is applied to the monostable multivibrator 60, which is turned on and off for a predetermined time when a trigger pulse is applied.

As described above, the monostable multivibrator 60 receiving the on / off waveform output from the flip-flop stage 50 has a constant duty determined by the resistor R3 and the capacitor C3 as shown in the waveform of FIG. A pulse is generated at (Duty) and applied to the first transistor Q1.

Accordingly, when a certain duty output from the monostable multivibrator 60 is turned on, the first transistor Q1 is also turned on during a period of time, i.e., while the duty is turned on, it is temporarily reset. The microcomputer is reset by dropping the power input from the stage 40 to the microcomputer reset terminal.

As described above, the present invention has an effect of increasing the convenience of the user by resetting the microcomputer using a power switch when the microcomputer is stopped due to a surge or excessive phenomenon and the driving of the microcomputer is stopped.

Claims (2)

A switch stage comprising a switch (SW) for generating a power on / off signal according to on / off of the power switch, a microcomputer for controlling a power control stage by receiving an on / off signal output from the switch stage, and A conventional switch circuit comprising a reset terminal connected to a reset terminal of a microcomputer and stably performing a microcomputer reset; A flip-flop stage for receiving an on / off signal output from the switch stage and generating an on / off waveform once in two docks, and a constant on / off signal output from the flip-flop stage. A monostable multivibrator that adjusts and outputs the duty and a turn-on-off according to the duty output from the monostable multivibrator to cut off the power input from the reset terminal to the reset terminal of the microcomputer A microcomputer reset circuit using a monostable multivibrator comprising one transistor. The method of claim 1; Adjusting the on / off signal output from the flip-flop stage to a constant duty, A microcomputer reset circuit using a monostable multivibrator, characterized in that it is adjusted by the values of a resistor (R3) and a capacitor (C3).