KR200153714Y1 - A reset apparatus - Google Patents

Abstract

According to the present invention, a power supply voltage is applied to a power supply terminal of a microcomputer and a power supply terminal of a predetermined integrated circuit through a capacitor, and the integrated circuit includes an oscillator for generating a clock. A microcomputer reset circuit for resetting the circuit and rectifying the initial transient voltage generated by the oscillator so as to reset the integrated circuit first before the microcomputer is reset by the microcomputer reset circuit and supplying it to the reset terminal of the integrated circuit. A reset device provided with a reset unit.

As described above, the reset device according to the present invention rectifies the initial transient voltage of the oscillator provided in the integrated circuit (microcom peripheral circuit) when the power supply is turned on and supplies the reset terminal of the integrated circuit to precede the reset of the microcomputer reset of the integrated circuit. Therefore, there is an effect that can prevent the loss of data supplied from the microcomputer to the integrated circuit.

Description

Reset device

The present invention relates to a reset device, and more particularly to a reset device for supplying a reset signal to the peripheral circuit of the microcomputer by the initial transient voltage generated by the oscillator.

In general, an electronic circuit is provided with a reset device for resetting the microcomputer and its peripheral circuits when the power is turned on. In general, since the microcomputer and the peripheral circuit share a single reset device, there are various problems caused by sharing the reset device.

The problems of the general reset apparatus will be described with reference to the monitor circuits of FIGS. 1 (a) and 1 (b).

As shown in FIG. 1 (a), when the main PCB (Printed Circuit Board) and the water tube PCB are separated, and the power is turned on while each of them shares the reset line, the power supply voltage (typically 5V) becomes a capacitor ( It is applied to the power supply terminal Vcc of the microcomputer 1 through C1 and C2 and to the power supply terminal Vcc of the on-screen display IC (OSD IC) 2 through the capacitors C3 and C4.

At the same time, the 5V power supply voltage is also applied to the power supply terminal of the reset circuit 3 so that the reset circuit 3 is connected to a high level (5V) for the microcomputer 1 of the main PCB and the on-screen display IC 2 of the PCB. Supply a reset signal.

However, in this case, since the reset of the on-screen display IC 2 is delayed in time than the reset of the microcomputer 1 due to the capacitors C3 and C4, the microcomputer 1 is reset and the on-screen display IC 2 is If the microcomputer 1 transmits data to the on-screen display IC 2 while not yet reset, data from the microcomputer 1 is lost.

In addition, since the microcomputer 1 and the on-screen display IC 2 share one reset circuit 3, there is a problem that the rest of the reset line is also shocked if an error occurs in one reset line.

Therefore, as an improvement for solving the problem caused by the sharing of the reset line as described above, as shown in FIG. 1 (b), the reset circuit 3 of the microcomputer 1 and the on-screen display IC 2, 4) has been studied.

That is, as shown in FIG. 1 (b), a 5V power supply voltage is supplied to the power supply terminal Vcc of the microcomputer 1 and the on-screen display IC 2, and to each of the reset circuits 3 and 4, respectively. The respective reset circuits 3 and 4 can supply high level reset signals to the microcomputer 1 and the on-screen display IC 2, respectively.

However, when the reset circuit is separated as described above, not only the peripheral circuit of the microcomputer is complicated but also the cost is increased.

In addition, as in the case of sharing the reset circuit, since the reset of the on-screen display IC 2 is delayed in time by the capacitors C3 and C4 than the reset of the microcomputer 1, data from the microcomputer 1 may be lost. There was a problem that could be.

The present invention was devised to solve the above problems, and removes the reset circuit by removing the reset circuit, and at the same time, in the case of the microcomputer peripheral circuit, the reset is performed by the initial transient voltage generated by the oscillator. It is an object of the present invention to provide a reset device in which the reset of the peripheral circuit is preceded by the reset of the microcomputer.

In order to achieve the above object, in the reset device according to the present invention, a power supply voltage is applied to a power supply terminal of a microcomputer and a power supply terminal of a predetermined integrated circuit through a capacitor, and the integrated circuit includes an oscillator for generating a clock. A monitor comprising: a microcomputer reset circuit for resetting the mannicom when the power supply voltage is applied; and an initial transient voltage generated by the oscillator such that the integrated circuit is reset before the microcom is reset by the microcom reset circuit. An integrated circuit reset unit for rectifying and supplying the reset terminal of the integrated circuit is provided.

1 (a) and 1 (b) are circuit diagrams of a general reset device.

2 is a circuit diagram of a reset device according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: Micom 2: On Screen Display (OSD) IC

3: micom reset circuit 4: integrated circuit reset unit

x-tal: Crystal oscillator D1 ~ D3: Diode

C1 to C8: Capacitors R1 to R4: Resistance

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

2 is a circuit diagram of a reset device according to an embodiment of the present invention, wherein the reset device includes a microcomputer reset circuit 3 for resetting the microcomputer 1 when a power supply voltage (Vcc, usually 5V) is applied, and the microcomputer reset. By rectifying the initial transient voltage (impulse voltage, about 6V) generated by the crystal oscillator (x-tal) so that the on-screen display IC 2 is reset first before the microcomputer 1 is reset by the circuit 3. An integrated circuit reset unit 4 for supplying the reset terminal reset of the on-screen display IC 2 is provided.

The integrated circuit reset unit 4 includes a diode D3 having an anode terminal connected to a crystal oscillator (x-tal) and a cathode terminal connected to a reset terminal (reset) of an on-screen display IC 2, and the diode One end is connected between the cathode terminal of D3) and the reset terminal of the on-screen display IC 2, and the other end is composed of a capacitor C6 connected to ground.

In addition, power supply voltages Vcc and 5V are applied to the power supply terminal Vcc of the microcomputer 1 and the power supply terminal Vcc of the on-screen display IC 2 through capacitors C1 to C4. The oscillator (x-tal) uses what is provided in the on-screen display IC 2 to generate a clock.

In addition, the capacitor C5 shown in FIG. 2 is a noise bypass capacitor, and the diodes D1 and D2 and the resistor R1 are used as elements for removing the impulse noise, and the resistors R4 and C7, C8) is the peripheral element of the crystal oscillator (x-tal).

The operation of the reset device according to an embodiment of the present invention configured as described above is as follows.

First, when the power is turned on, the power supply voltages Vcc and 5V are applied to the power supply terminal Vcc of the microcomputer 1 through the noise bypass capacitor C1 and the ripple cancellation smoothing capacitor C2, The bypass capacitor C3 and the ripple cancellation smoothing capacitor C4 are applied to the power supply terminal Vcc of the screen display IC 2 which has been turned on through C.

When the power supply voltage Vcc is applied to the microcomputer 1, a constant voltage is also applied to the power supply terminal of the microcomputer reset circuit 3, so that a reset signal is output from the microcomputer reset circuit 3 to reset the terminal of the microcomputer 1. is applied to (reset).

In addition, when the power supply voltage Vcc is supplied to the on-screen display IC 2, the crystal oscillator (x-tal) generates an impulse voltage (about 6 V) due to an initial transient, and then oscillates normally and the on-screen display IC 2 To generate the required clock.

In this case, the impulse voltage 6V generated by the initial transient shape of the crystal oscillator x-tal is rectified by the diode D3 and the capacitor c6 of the integrated circuit reset unit 4. The on-screen display IC 2 is reset before the microcomputer 1 is reset because it is supplied to the reset terminal of (). That is, the on-screen display IC 2 is reset in time faster than the microcomputer 1 reset by the microcomputer reset circuit 3.

In the above, the diode d3 of the integrated circuit reset unit 4 is switched so that only the initial transient voltage 6V output from the crystal oscillator x-tal is supplied to the reset terminal of the on-screen display IC 2. In addition to playing a role, it plays a role in rectifying the initial transient voltage of the crystal oscillator (x-tal) together with the capacitor (C6).

As described above, the reset device according to the present invention rectifies the initial transient voltage of the oscillator provided in the integrated circuit (microcom peripheral circuit) when the power is turned on and supplies the reset terminal of the integrated circuit so that the reset of the integrated circuit is preceded by the reset of the microcomputer. There is an effect that can prevent the loss of data supplied from the microcomputer to the integrated circuit.

Claims (2)

A power supply voltage is applied to a power supply terminal of a microcomputer and a power supply terminal of a predetermined integrated circuit through a capacitor, and the integrated circuit includes an oscillator for generating a clock. A microcom reset circuit and an integrated circuit reset unit configured to rectify an initial transient voltage generated by the oscillator to supply the reset terminal of the integrated circuit so that the integrated circuit is reset before the microcom is reset by the microcom reset circuit. Reset device characterized in that. 2. The integrated circuit reset unit of claim 1, wherein the integrated circuit reset unit has an anode terminal connected to the oscillator and a cathode terminal connected to a reset terminal of the integrated circuit, and one end is connected between a cathode terminal of the diode and a reset terminal of the integrated circuit. And the other end of which is configured as a capacitor connected to ground.