KR19990003588U - OSD IC automatic reset circuit of monitor - Google Patents

Abstract

According to the present invention, when the microcomputer 10 and the OSD IC 20, which are connected to each other by an I ² C bus composed of an SCL for transmitting a synchronous clock and an SDA for transmitting control data, exchange predetermined control signals, A monitor configured to adjust a screen, comprising: an error sensing transistor (Q1) turned on when a control signal output from the SDA terminal of the microcomputer 10 is applied to the base; The base is connected to the collector output terminal of the error sensing transistor Q1 and the coupling capacitor C2. When the voltage of the collector output terminal of the error sensing transistor Q1 reaches 0V, the base is turned on and the OSD IC 20 is predetermined. The present invention relates to an OSD IC automatic reset circuit of a monitor, comprising a power supply transistor (Q2) for supplying a driving voltage. In this circuit, since the voltage of the control signal applied to the SDA terminal of the OSD IC 20 through the SDA terminal of the microcomputer 10 becomes 0 V due to noise, etc., the error detecting transistor Q1 and the power supply transistor are provided. When (Q2) is turned off so that the OSD IC 20 becomes inoperable, a normal voltage control signal is output from the SDA terminal of the microcomputer 10 even if the user does not directly reset the power supply of the OSD IC 20. The error detection transistor Q1 and the power supply transistor Q2 are automatically turned on to supply the driving voltage to the OSD IC 20.

Description

Circuit for auto-resetting OSD IC in a monitor

The present invention relates to an On Screen Display (OSD) IC of a monitor, and more particularly, to an OSD IC automatic reset circuit that automatically resets an OSD IC when the OSD IC becomes inoperative.

In general, a monitor configured to adjust a screen using a digital control signal has a serial clock line (SCL) and control data through which the microcomputer 10 and the OSD IC 20 transmit a synchronous clock as shown in FIG. 1. The microcomputer 10 and the OSD IC 20 are connected to each other by an I ² C bus, which consists of a serial data line (SDA), which transmits a driving voltage supplied through a pull-up resistor R. + 5V).

If a predetermined screen is reproduced in the receiving tube by the RGB video signal, the user can adjust the horizontal / vertical size, horizontal / vertical position, contrast, brightness, pincushion and pin balance of the screen. If a predetermined screen control signal is input to the key input terminal (Key-in) of the microcomputer 10, the control signal according to the screen control signal from the microcomputer 10 is output to the OSD IC (20) Then, from this OSD IC 20, a predetermined RGB video signal for displaying a predetermined character or diagram for screen adjustment on the receiving tube is output.

However, I ² C Once through the bus the microprocessor 10 and the OSC IC (20) is that an error occurs due to noise, such as factors of the exchange of predetermined data on the I ² C bus SDA (Serial Data, such as the The signal voltage of the line) drops to 0 V. In this case, the OSD IC 20 stops operating, so that even if the user adjusts the keyswitch, a predetermined letter or diagram for screen adjustment does not appear on the receiving tube. Therefore, in order for a predetermined character or diagram for screen adjustment to be normally displayed on the receiving tube, an error occurs because the power supplied to the power input terminal Vdd must be cut off and then supplied again. There was an inconvenience that the user has to reset the power of the OSD IC 20 every time.

Therefore, in order to solve the above problems, the present invention is an error occurs due to factors such as noise while the OSD IC exchanges predetermined data with the microcomputer through an I ² C bus, and thus the SDA of the I ² C bus. It is an object of the present invention to provide an OSD IC automatic reset circuit that automatically resets the OSD IC when the signal voltage of the LED becomes inoperable as the voltage falls to 0V.

In order to achieve the above object, the present invention, when the microcomputer and the OSD IC connected to each other by the I ² C bus consisting of the SCL for transmitting the synchronous clock and the SDA for transmitting the control data exchanges a predetermined control signal A monitor configured to adjust a screen of a water pipe, comprising: an error sensing transistor turned on when a control signal output from the SDA terminal of the microcomputer is applied to a base; A base is connected to the collector output terminal of the error sensing transistor by a coupling capacitor. When the voltage of the collector output terminal of the error sensing transistor reaches 0V, the power supply is turned on to supply a predetermined driving voltage to the OSD IC. Characterized in that it comprises a transistor.

In the device of the present invention configured as described above, the error detection transistor is turned off as the voltage of the control signal applied to the SDA terminal of the OSD IC through the SDA terminal of the microcomputer becomes 0 V due to noise, etc. When the power supply transistor is turned off and the OSD IC becomes inoperable, a control signal indicating a high voltage characteristic is output from the SDA terminal of the microcomputer even if the user does not directly reset the power supply of the OSD IC. When output, the error detection transistor is automatically turned on and the power supply transistor is turned on to supply a driving voltage to the OSD IC.

1 is a circuit diagram showing a connection state of a microcomputer and an OSD IC;

2 is a diagram illustrating an OSD IC automatic reset circuit according to the present invention.

* Names of symbols for main parts of drawings *

10: micom 20: OSD IC

R, R1, R2, R3, R4, R5: Resistor D1: Diode

C1, C2: Capacitor Q1, Q2: Transistor

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

2 is a diagram illustrating an on-screen display IC automatic reset circuit according to the present invention.

As shown in FIG. 2, an embodiment according to the present invention includes a microcomputer 10; OSD IC 20; An error sensing transistor Q1; And a power supply transistor Q2. The microcomputer 10 and the OSD IC 20 are connected to each other by an I ² C bus including an SCL for transmitting a synchronous clock and an SDA for transmitting control data. The collector output terminal and the base of the power supply transistor Q2 are connected to each other by a coupling capacitor C2.

Referring to the embodiment according to the present invention configured as described above in detail.

When a normal control signal is output from the SDA terminal of the microcomputer 10, the voltage of this control signal becomes high. Therefore, the control signal is applied to the base of the error detection transistor Q1 in a state where the harmonic components are removed by the diode D1, the resistor R1, and the capacitor C1 and the current is limited by the resistor R2. As such, when a high state control signal is applied to the base of the error sensing transistor Q1, the error sensing transistor Q1 is turned on by the power supplied through the load resistor R3. At this time, since the voltage at the collector output terminal of the error sensing transistor Q1 connected to the coupling capacitor C2 is in a low state, the coupling capacitor C2 is connected to the resistor R4 and the resistor R5. The potential goes low. Therefore, since the power supply transistor Q2 is turned on, a predetermined driving voltage is applied to the power supply terminal Vdd of the OSD IC 20.

However, if an error occurs in the control signal output through the SDA terminal of the microcomputer 10 due to a factor such as noise occurring while the microcomputer 10 and the OSD IC 20 exchange predetermined data with each other. The voltage of this control signal goes low. Therefore, at this time, the current charged in the capacitor C1 is discharged. The error is not solved until the capacitor C1 is completely discharged. If the voltage of the control signal is kept low, the error sensing transistor ( Q1) is toned off. At this time, the voltage of the collector output terminal of the error sensing transistor Q1 connected to the coupling capacitor C2 becomes high, so the potential of the coupling capacitor C2 and the connection point of the resistor R4 and the resistor R5 is also high. It becomes a state. Accordingly, since the power supply transistor Q2 is also turned off, the driving voltage applied to the power supply terminal Vdd of the OSD IC 20 is cut off, and the OSD IC 20 becomes inoperable.

When the OSD IC 20 becomes inoperable as described above, when the error is eliminated and the voltage of the control signal output from the SDA terminal of the microcomputer 10 becomes high again, the user may enter the OSD IC 20. The error detection transistor Q1 is turned on even when the power supply of the power supply is not directly reset. Accordingly, the power supply transistor Q2 is also turned on, so that a predetermined driving voltage is automatically supplied to the power supply terminal of the OSD IC 20. Vdd).

As described above, according to the present invention, as the voltage of the control signal applied to the SDA terminal of the OSD IC through the SDA terminal of the microcomputer becomes 0V due to noise, the OSD IC may become inoperable. At this time, even if the user does not directly reset the power supply of the OSD IC, when the normal voltage control signal is output from the SDA terminal of the microcomputer, the error detection transistor is automatically turned on and the power supply transistor is turned on to the OSD IC. When the driving voltage is supplied, the inconvenience of the user having to reset the power supply of the OSD IC every time an error occurs as before has been eliminated.

Claims (1)

When the microcomputer 10 and OSD IC 20, which are connected to each other by an I ² C bus composed of an SCL for transmitting a synchronous clock and an SDA for transmitting control data, exchange predetermined control signals, the screen of the water pipe is adjusted. In a monitor that is intended to An error sensing transistor Q1 which is turned on when a control signal output from the SDA terminal of the microcomputer 10 is applied to the base; A base is connected to the collector output terminal of the error sensing transistor Q1 by a coupling capacitor C2. When the voltage of the collector output terminal of the error sensing transistor Q1 reaches 0V, the base is turned on to display the OSD IC 20. OSD IC automatic reset circuit comprising a power supply transistor (Q2) for supplying a predetermined driving voltage.