KR200156531Y1 - Horizontal size limit circuit in a monitor - Google Patents

Abstract

The present invention relates to a horizontal size limit circuit of a monitor, which is automatically synchronized after the horizontal size control signal output from the microcomputer 10 is changed to a predetermined voltage control signal by the integrating circuit 20 according to a user's control. When applied to the deflection control unit 30, the automatic synchronous deflection control unit 30 outputs a horizontal size signal proportional to the magnitude of the voltage control signal to control the horizontal size of the screen. A buffer 21 for buffering a predetermined voltage control signal output from the < RTI ID = 0.0 > When the output terminal voltage of the buffer 21 is larger than the predetermined reference voltage Vref, the circuit is constituted by the horizontal size limiter 40 which restricts the output terminal voltage of the buffer 21 from exceeding the reference voltage. The signal size when the horizontal size limit signal output from the microcomputer 10 is changed into a predetermined voltage control signal by the integrating circuit 20 and buffered by the buffer 21 is the reference of the horizontal size limiting unit 40. The circuit reliability is improved by restricting not to exceed the voltage and defining the rating of the horizontal output terminal to which the horizontal size signal output from the automatic synchronous deflection control unit 30 is applied in accordance with the reference voltage.

Description

Horizontal size limit circuit of the monitor

The present invention relates to a horizontal size control circuit of a monitor, and more particularly, to a horizontal size limiting circuit of a monitor configured to stabilize the output characteristics of the horizontal size signal by limiting the size of the horizontal size control signal of the monitor to a predetermined range.

In general, the size of the horizontal screen of the monitor, that is, the horizontal size (H-size), is determined by the strength of the horizontal magnetic field produced by the horizontal deflection coil when the sawtooth current output from the horizontal output stage is supplied to the horizontal deflection coil. Therefore, the monitor has a predetermined adjustment means that allows the user to change the size of the screen by adjusting the horizontal size, and when the user adjusts this adjustment means to vary the amount of sawtooth current output from the horizontal output stage and supplied to the horizontal deflection coil The horizontal size of the screen is changed.

1 is a diagram showing a horizontal size control circuit for changing the horizontal size of the monitor as described above, and includes a microcomputer 10; An integrating circuit 20; It consists of an automatic synchronous deflection control unit.

The operation of the horizontal size control circuit configured as described above is as follows.

When the microcomputer 10 outputs a predetermined horizontal size control signal as the user adjusts a predetermined adjustment means, the integrating circuit 20 composed of the resistor R2 and the condenser C1 integrates the horizontal size control signal and pulls up a resistor. A predetermined control voltage signal having a magnitude less than or equal to the reference power supply voltage Vcc (for example, 0 to 5V) supplied through R1 is output. When the predetermined control voltage signal is input to the automatic synchronous deflection control unit 30, the automatic synchronous deflection control unit 30 outputs a horizontal size signal proportional to the magnitude of the control voltage signal. Therefore, when the horizontal size signal is applied to the horizontal output terminal, the scan voltage SCAN B + induced in the horizontal deflection coil of the horizontal output terminal is varied and the amount of current is changed, thereby changing the horizontal size.

Here, the automatic synchronous deflection control unit 30 performs the horizontal and vertical deflection functions as well as the B + voltage control function of the flyback transformer (FBT), and is configured as a single chip. In addition, the automatic synchronization deflection control unit 30 receives the horizontal and vertical synchronization signals from the microcomputer 10 and oscillates the horizontal and vertical signals synchronized thereto, and then outputs the horizontal and vertical drive signals. Outputs S correction and Pincushion correction signals. In particular, when the automatic synchronization deflection control unit 30 receives the horizontal size control signal and the horizontal shift signal from the microcomputer 10, the automatic synchronization deflection control unit 30 generates a horizontal size signal for adjusting the size of the horizontal screen in the EW parabola unit. To the horizontal output stage.

However, when the horizontal size of the screen output to the water tube is controlled as described above, the amount of change in the scan voltage induced in the horizontal deflection coil varies depending on the video mode, and it is difficult to design the horizontal output terminal according to the scan voltage for each video mode. Since it is difficult, there exists a problem that the reliability of a circuit falls.

Accordingly, in order to solve the above problems, the present invention limits the size of the horizontal size control signal of the monitor to a predetermined range to set a limit of the scan voltage, thereby stabilizing the output characteristics of the horizontal size signal. The purpose is to provide a horizontal size limit circuit for the monitor.

In order to achieve the above object, the present invention, if the horizontal size control signal output from the microcomputer under the control of the user is changed to a predetermined voltage control signal by the integrating circuit and then applied to the automatic synchronous deflection control unit, this automatic synchronous deflection A monitor configured to control a horizontal size of a screen by a controller outputting a horizontal size signal proportional to a magnitude of the voltage control signal, comprising: a buffer for buffering a predetermined voltage control signal output from the integrating circuit; When the output terminal voltage of the buffer is larger than the predetermined reference voltage Vref, the output terminal voltage of the buffer is configured to have a horizontal size limiter for restricting the voltage from exceeding the reference voltage.

The apparatus of the present invention configured as described above limits the magnitude of the horizontal size limit signal output from the microcomputer to a predetermined voltage control signal and buffers the signal to not exceed the reference voltage of the horizontal size limiter. The reliability of the circuit is improved by defining the rating of the horizontal output terminal to which the horizontal size signal output from the control unit is applied in accordance with the reference voltage.

1 shows a monitor horizontal size control circuit;

2 is a diagram illustrating a horizontal size control circuit of a monitor in which a horizontal size limiting circuit according to the present invention is implemented.

* Description of the symbols for the main parts of the drawings *

10: micom 20: integrating circuit

21: buffer 30: automatic synchronous deflection control unit

40: Horizontal size limit part R1, R2, R3, R4: Resistance

C1: capacitor D1: diode

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

2 is a diagram illustrating a horizontal size control circuit of a monitor in which a horizontal size limiting circuit according to the present invention is implemented.

As shown in FIG. 2, an embodiment according to the present invention includes a microcomputer 10; Integrating circuit 20; Buffer 21; An automatic synchronous deflection control unit 30; It consists of a horizontal size limiting portion 40.

The action of the embodiment according to the present invention configured as described above is as follows.

First, in the embodiment according to the present invention and the microcomputer 10 shown in FIG. 2; Integrating circuit 20; A buffer 21 and; Since the configuration and operation of the automatic synchronous deflection control unit 30 are the same as the corresponding components shown in FIG. 1, detailed descriptions of these components will be omitted. In addition, the reference voltage of the horizontal size limiting unit 40 is set, and the horizontal output terminal to which the horizontal size signal output from the automatic synchronous deflection control unit 30 is applied is output from the buffer 21 to the automatic synchronous deflection control unit. It is assumed that the control voltage signal applied to (30) shows stable rated output characteristics when it is in the range within the reference voltage.

If the horizontal size control signal output from the microcomputer 10 is integrated through the integrating circuit 20 and then buffered at OP1 of the buffer 21 according to the user's control, the output terminal a of the buffer 21 is output. If the magnitude of the control voltage signal appearing at the point is less than the reference voltage, the control voltage signal is applied to the automatic synchronous deflection control unit 30 as it is. That is, at this time, since the diode D1 of the horizontal size limiter 40 is turned off, the horizontal size limiter 40 does not function to limit the control voltage signal.

On the contrary, when the horizontal size control signal output from the microcomputer 10 is integrated through the integrating circuit 20 and then buffered at OP1 of the buffer 21, the control voltage appearing at the output terminal a of the buffer 21. If the magnitude of the signal is greater than or equal to the reference voltage, the diode D1 of the horizontal size limiter 40 is turned on and OP2 performs the negative feedback operation. Therefore, since the magnitude of the control voltage signal at the output terminal a of the buffer 21 becomes equal to the reference voltage of the horizontal size limiting portion 40, the control voltage signal is limited to the reference voltage to the automatic synchronous deflection control portion 30. It is authorized.

As described above, according to the present invention, when the horizontal size limit signal output from the microcomputer is changed into a predetermined voltage control signal by an integrating circuit and buffered by a buffer, the reference voltage of the horizontal size limiting unit When the limit is not exceeded, the rating of the horizontal output terminal to which the horizontal size signal output from the automatic synchronous deflection control unit is applied can be defined according to the reference voltage, thereby improving the reliability of the circuit.

Claims (2)

When the horizontal size control signal output from the microcomputer 10 is changed to a predetermined voltage control signal by the integrating circuit 20 and applied to the automatic synchronous deflection control unit 30 according to the control of the user, the automatic synchronous deflection control unit 30 In the monitor to output a horizontal size signal proportional to the magnitude of the voltage control signal to control the horizontal size of the screen, A buffer 21 for buffering a predetermined voltage control signal output from the integrating circuit 20; If the output terminal voltage of the buffer 21 is greater than the predetermined reference voltage (Vref), characterized in that it comprises a horizontal size limiter 40 for limiting the output terminal voltage of the buffer 21 does not exceed the reference voltage The horizontal size limit circuit of the monitor. The operational amplifier OP2 of claim 1, wherein the horizontal size limiter 40 has a resistor R4 and a diode D1 connected to an output side, a reference voltage Vref is input to one input terminal, and the other input terminal is feedback-connected to the output side. A horizontal size limit circuit of a monitor, characterized in that consisting of a circuit.