KR19990055346A - Reset circuit of microprocessor - Google Patents

Abstract

According to the present invention, after the power supply Vcc is supplied to the microprocessor 20, the microprocessor 20 generates a reset signal for normally outputting a control signal for initializing the functions of the PC main body or the monitor from the microprocessor 20. It relates to a microprocessor reset circuit to be applied to.

According to the present invention, when the power switch 10 is turned on and the low level charging voltage output from the capacitor C1 is input to the reset terminal of the microprocessor 20, the microprocessor 20 is reset to reset the PC main body or the like. Prepare to output a control signal for controlling the operation of each part of the monitor, and the reset terminal continuously resets for at least 500 ms at a high level of the charging voltage output from the capacitor C1 after the microprocessor 20 is reset. Only when inputted through the microprocessor 20 is to output a control signal for initializing the operation of each part of the PC main body or the monitor.

Description

A reset circuit of a micro processor

The present invention relates to a microprocessor reset circuit for applying a reset signal to the microprocessor so that a control signal for initializing the functions of the PC main body or the monitor is normally output from the microprocessor after power is supplied to the microprocessor. .

In general, the microprocessor in the form of a single chip used in a PC main body or a monitor, as shown in FIG. 1, the driving power Vcc through the power input terminal Vcc as the power switch 10 is turned on. After this is applied, a high level reset signal is applied through a reset terminal (Reset) so that a control signal for initializing the functions of the PC main body or the monitor is outputted, and the microprocessor 20 controls the initialization as described above. The operation until the signal is normally output is as follows.

As the power switch 10 is turned on, if the capacitor C1 shown in FIG. 1 is not charged when the driving power supply Vcc is first input to the microprocessor 20, the microprocessor 20 A reset signal of a low level is applied to a reset terminal Reset, whereby the microprocessor 20 is reset to prepare to output a control signal for controlling the operation of each part of the PC main body or the monitor.

In addition, after the microprocessor 20 is reset by the low level reset signal and the time until the capacitor C1 is charged to the driving power supply (Vcc) level has elapsed, the charging voltage of the capacitor (C1) The high level reset signal is applied to the reset terminal Reset of the microprocessor 20. At the same time the high level reset signal is applied, the microprocessor 20 initializes the functions of the PC main body or the monitor. Output the control signal for normal. That is, the microprocessor 20 is applied to the power supply terminal (Vcc) and at the same time reset to the active low (Active low) after the capacitor (C1) level of the drive power (Vcc) When it is charged with, it outputs a control signal to initialize the functions of each part of PC or monitor.

However, as shown in FIG. 1, the reset circuit of the microprocessor 20 operating in an active low state by the capacitor C1 charged as the power switch 10 is turned on. Since the reset operation of the microprocessor 20 is controlled, when the power switch 10 is turned on and an abnormal high voltage or noise component exceeding the driving power supply Vcc is applied to the capacitor C1, the microcontroller 20 The microprocessor 20 may malfunction because the high level reset signal is applied to the microprocessor 20 even after the processor 20 is reset to active low and before the processor 20 maintains a stable initialization ready state. There was a problem.

Accordingly, in order to solve the above problems, the present invention provides a high level reset signal to the microprocessor for a predetermined time even when the driving power is supplied to the microprocessor and the microprocessor is reset to active low. It is an object of the present invention to provide a reset circuit of a microprocessor that prevents the microprocessor from outputting a control signal for initializing the functions of the PC main body or the monitor if it is not continuously applied.

In order to achieve the above object, according to the present invention, as the power switch is turned on, the driving power is applied to the power supply terminal and reset to active low, and the capacitor charged by the driving power is And a microprocessor for outputting a control signal for initializing the functions of the PC main body or the monitor when charged to the level of the driving power. When the low level charging voltage output from the capacitor is turned on and is input to the reset terminal, it is reset to prepare to output a control signal for controlling the operation of each part of the PC main body or the monitor, and after being reset, the high level output from the capacitor is reset. Level charge voltage continuously for at least 500ms Be input via the reset terminal is characterized in that the outputs a control signal for initializing the operation of each part of the PC main body or display.

In the circuit of the present invention configured as described above, after the power switch is turned on and the microprocessor is reset, the high level charge voltage output from the capacitor must be input through the reset terminal continuously for at least 500 ms or more. The processor is configured to output a control signal for initializing the operations of each part of the PC main body or the monitor.

1 shows a microprocessor reset circuit;

2 is a flowchart illustrating the operation of the reset circuit according to the present invention.

Explanation of symbols on the main parts of the drawings

10: power switch 20: microprocessor

C1: capacitor

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

1 is a diagram illustrating a microprocessor reset circuit, and FIG. 2 is a flowchart illustrating an operation process of the reset circuit according to the present invention.

As shown in FIG. 1 and FIG. 2, according to the exemplary embodiment of the present invention, as the power switch 10 is turned on, the driving power supply Vcc is applied to the power supply terminal Vcc and at the same time active low. After reset, when the capacitor C1 charged by the driving power supply Vcc is charged to the level of the driving power supply Vcc, the microprocessor 20 outputting a control signal for initializing the functions of the PC main body or the monitor. In the reset circuit of the microprocessor, the microprocessor 20 resets the low level charging voltage output from the capacitor C1 at the same time that the power switch 10 is turned on. When it is input to the terminal (Reset), it is reset to prepare to output the control signal for controlling the operation of each part of the PC main body or the monitor, and after the reset of the high level output from the capacitor (C1) Continuously for at least 500ms or more voltage be input via the reset terminal (Reset) it is characterized in that the outputs a control signal for initializing the operation of each part of the PC main body or display.

Referring to the operation of the embodiment according to the present invention configured as described above according to the flow chart shown in FIG.

As the power switch 10 is turned on, if the capacitor C1 shown in FIG. 1 is not charged when the driving power supply Vcc is first input to the microprocessor 20, the microprocessor 20 A low level reset signal is applied to a reset terminal Reset, and accordingly, the microprocessor 20 is reset to prepare to output a control signal for controlling the operation of each part of the PC main body or the monitor (step 100). .

In addition, after the microprocessor 20 is reset by the low level reset signal and the time until the capacitor C1 is charged to the driving power supply (Vcc) level has elapsed, the charging voltage of the capacitor (C1) The high level reset signal is applied to the reset terminal Reset of the microprocessor 20. If the high level reset signal is continuously applied for at least 500 ms or more, the microprocessor 20 is connected to a PC main body or a monitor. The control signal for initializing the functions of the respective parts is normally output (steps 110 and 120).

However, when the power switch 10 is turned on and an abnormal high voltage or noise component exceeding the driving power source Vcc is momentarily applied to the capacitor C1, the microprocessor 20 is active low. The microprocessor 20 does not output a control signal for initializing the functions of the PC main body or the monitor, even if the charging voltage of the capacitor C1 is not maintained continuously for at least 500 ms even when the signal is reset to. That is, in the embodiment according to the present invention, even if the microprocessor 20 is reset, the control signal for initializing the functions of each part of the PC main body or the monitor is not output unless the initialization preparation state is stable.

As described above, after the power switch is turned on and the microprocessor is reset to active low according to the present invention, the high level charging voltage output from the capacitor is continuously maintained for at least 500 ms or more. When the microprocessor outputs a control signal for initializing the functions of the PC main body or the monitor only when it is input through a reset terminal, the microprocessor always outputs the abnormal high voltage or noise component exceeding the driving power supply Vcc. There is an effect of stabilizing the operation of the microprocessor.

Claims (1)

As the power switch 10 is turned on, the driving power Vcc is applied to the power supply terminal Vcc and reset to active low, and then the capacitor C1 charged by the driving power Vcc. In the reset circuit of the microprocessor, characterized in that it comprises a microprocessor 20 for outputting a control signal for initializing the operation of each part of the PC main body or the monitor when is charged to the level of the drive power (Vcc), The microprocessor 20 is reset when the power switch 10 is turned on and the low level charge voltage output from the capacitor C1 is input to the reset terminal Reset to reset the microprocessor 20 to operate the PC main body or the monitor. The PC main body or monitor must be prepared to output a control signal for control and must be inputted through the reset terminal continuously for at least 500 ms for at least 500 ms outputted from the capacitor C1 after being reset. A reset circuit of a microprocessor, characterized in that for outputting a control signal for initializing the operation of each part.