KR19980014044U - Reset device - Google Patents

Abstract

The present invention relates to a reset device, the device of the present invention in the integrated circuit (2) having an oscillator (X-tal) for generating a clock, the initial transient generated by the oscillator (X-tal) at power-on And a reset circuit 4 for rectifying the voltage and supplying it to the reset terminal of the contact circuit 2. The reset circuit 4 has an anode terminal receiving an oscillation frequency from the crystal oscillator X-tal. A diode (D) connected to the reset terminal of the contact circuit (2); One end is composed of a capacitor C6 connected in parallel between the cathode terminal of the diode D and the reset terminal of the contact circuit 2, and the other end is grounded, so that the oscillator X when the power is turned on. By rectifying the transient voltage generated from -tal) and supplying it to the reset terminal of the integrated circuit 2, the reset of the integrated circuit 2 precedes the reset of the microcomputer 1, thereby preventing data loss. It works.

Description

A reset apparatus

The present invention relates to a reset device, and more particularly to a reset device adapted to supply a reset signal by using the oscillator of the microcomputer peripheral circuit.

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

Referring to the monitor circuit of FIGS. 1A and 1B, problems of a general reset device are as follows.

First, as shown in FIG. 1A, when the main PCB (Printed Circuit Boad) and the water tube PCB (Printed Circuit Boad) are separated and sharing a reset line, when the power is turned on, the power supply voltage (typically 5 V) is a capacitor. It is applied to the power supply terminal of the microcomputer 1 via (C1, C2), and is applied to the power supply terminal of the on-screen display IC (2) through the capacitors (C3, C4).

At the same time, the power supply voltage 5V is also applied to the power supply terminal of the reset circuit 3, so that the reset circuit 3 operates to output a high level 5V reset signal to the microcomputer 1 and the water pipe PCB of the main PCB. To the on-screen display IC 2 or the like.

At this time, 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, the on-screen display IC 2 is not reset, that is, the micom (1) Immediately after the reset, when the microcomputer 1 transmits data to the on-screen display IC 2, the on-screen display IC 2 has a problem that it cannot receive the data.

In addition, since one reset circuit 3 is shared by the microcomputer 1 and the on-screen display IC 2, there is a problem that the rest of the reset lines are also shocked when 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. 1B, the reset circuits 3 and 4 of the microcomputer 1 and the on-screen display IC 2 are separated. Has been studied.

That is, as shown in Fig. 1B, the power supply voltage 5V is supplied to the power supply terminals of the microcomputer 1 and the on-screen display IC 2, and also to the respective reset circuits 3 and 4, The high level reset signal generated in each of the reset circuits 3 and 4 is supplied to the microcomputer 1 and the on-screen display IC 2, respectively.

However, when disconnecting the reset device, there is a problem that the peripheral circuit is not only complicated, but also the cost is increased accordingly. In addition, as in the case of sharing a reset device, 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, the on-screen display IC 2 If the microcomputer 1 transmits data to the on-screen display IC 2 in a state where the reset is not reset, the on-screen display IC 2 has a problem that the data cannot be received.

Therefore, the present invention has been made to solve the above problems, and provides a reset device that is to remove the reset device to remove the problem caused by the reset sharing, and at the same time the reset of the peripheral circuit prior to the reset of the microcomputer. There is a purpose.

In the reset device according to the present invention for achieving the above object, in the integrated circuit provided with an oscillator for generating a clock, the reset device of the integrated circuit by rectifying the initial transient voltage generated by the oscillator at power-on It is comprised by the reset circuit to supply.

That is, the device of the present invention rectifies the transient voltage generated from the oscillator at power-on and supplies it to the reset terminal of the integrated circuit, so that the reset of the integrated circuit is preceded by the reset of the microcomputer, thereby preventing data loss.

1A and 1B are circuit diagrams showing a general reset device;

2 is a circuit diagram illustrating a reset device according to the present invention.

* Names of symbols according to the main parts of the drawings

1: microcomputer 2: microcomputer reset circuit

3: On Screen Display (OSD) IC 4: Reset Circuit

X-tal: Crystal oscillator D 1,2,3: Diode

C 1,2,3,4,5,6,7,8 Capacitors R 1,2,3,4: Resistor

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram illustrating a reset device according to the present invention.

The apparatus according to the present invention comprises a microcomputer 1, a microcomputer reset circuit 2, an on-screen display IC 3, a reset circuit 4 and a crystal oscillator X-tal as shown in FIG. Consists of.

Wherein the reset circuit (4) comprises: a diode (D) in which an anode terminal receives an oscillation frequency from the crystal oscillator (X-tal) and a cathode terminal is connected to a reset terminal of the on-screen IC (2); One end is constituted by a capacitor C6 connected in parallel between the cathode terminal of the diode D and the reset terminal of the on-screen display IC 2, and the other end is grounded.

Next, the operation and effects of the apparatus of the present invention configured as described above will be described.

When the power is turned on, a power supply voltage (Vcc: 5 V) is applied to the power supply terminal of the microcomputer 1 through the noise bypass capacitor C1 and the ripple cancellation smoothing capacitor C2, The capacitor C3 and the ripple smoothing capacitor C4 are applied to the power supply terminal of the on-screen display IC 2.

When a power supply voltage 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 the reset terminal of the microcomputer 1. Is approved.

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, thereby causing the on-screen display IC. Generate the clock required in (2).

At this time, before the microcomputer 1 is reset, the impulse voltage 6V generated during the initial transient is rectified through the diode D3 and the capacitor C6 and supplied to the reset terminal of the on-screen display IC 2. This resets the on-screen display IC 2.

Therefore, the on-screen display IC 2 is reset in time faster than the microcomputer 1 reset by the conventional reset circuit 3.

In this case, the diode D3 is supplied with a capacitor C6 as well as a switching role of supplying only the initial transient voltage 6V output from the crystal oscillator X-tal to the reset terminal of the on-screen display IC 2. It rectifies the transient voltage.

In addition, the capacitor C5 is a noise bypass capacitor, the diodes D1 and D2 and the resistor R1 are used as an impulse noise canceling element, and the resistors R4 and C7 and C8 are around the crystal oscillator. Element.

As described above, the apparatus of the present invention rectifies the transient voltage generated from the oscillator (X-tal) when the power is turned on, and supplies the rectified voltage to the reset terminal of the on-screen display IC 2, thereby The effect is that the reset precedes the reset of the microcomputer 1 and thus prevents data loss.

Claims (2)

In a contacting circuit (2) having an oscillator (X-tal) for generating a clock, an initial transient voltage generated by the oscillator (X-tal) is rectified when the power is turned on to a reset terminal of the contacting circuit (2). A reset device comprising: a reset circuit (4) for supplying. 2. The reset circuit (4) according to claim 1, further comprising: a diode (D) whose anode terminal is supplied with the oscillation frequency from the crystal oscillator (X-tal) and is connected to the reset terminal of the contact circuit (2); A reset device, comprising: a capacitor C6, one end of which is connected in parallel between the cathode terminal of the diode D and the reset terminal of the contact circuit 2, and the other end of which is grounded. .