KR950000823Y1 - Picture size control circuit for tv - Google Patents

Abstract

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Description

Screen size adjustment circuit according to the vertical deflection signal

1 is a detailed circuit diagram of a screen size adjusting circuit according to a variation of a vertical deflection signal according to an embodiment of the present invention.

The present invention relates to a screen size adjustment circuit according to the variation of the vertical deflection signal. More specifically, when the size of the vertical deflection signal is changed by changing the frequency of the vertical synchronization signal in a multi-mode monitor. Regarding the screen size adjusting circuit according to the variation of the vertical deflection signal, by outputting a voltage signal corresponding to the difference between the maximum value of the vertical deflection signal and the reference value to the vertical deflection IC, the vertical deflection IC can correct the vertical size of the screen. will be.

In general, the number of fonts of an image displayed on a monitor is different depending on the video graphic array (VGA) mode, super VGA mode, IBM 8514A mode, and the like.

That is, in VGA mode, there are approximately three types: 640 × 350, 640 × 400, and 640 × 480, 800 × 600 in Super VGA mode, and 1024 × 7698 in IBM 8514A mode. The number of fonts in the image is different.

In a multi-mode monitor that supports many of these modes as a single monitor, a technology for differentially adjusting the vertical size of the screen according to the change of the mode is disclosed in Korean Utility Model Registration Publication No. 92-100 (Application Date: 1988 May 2), "Vertical Size Adjustment Circuit for Monitors with Different Mode Changes".

The " vertical size adjusting circuit of the monitor according to the mode change " determines the polarity of the horizontal synchronizing signal and the vertical synchronizing signal inputted to the monitor, and differentially adjusts the vertical size of the screen suitable for the mode determined according to the polarity discriminating signal. Operating characteristics.

However, in the multi-mode monitor in which one monitor is operated in various modes as described above, the frequency of the horizontal synchronizing signal and the vertical synchronizing signal for supporting the above modes is different so that the screen is changed every time the mode of the screen is changed. The size of is changed differently. Therefore, in order to always maintain a constant screen size in order to provide a stable screen, the vertical size of the screen should be appropriately adjusted according to the type of the frequency of the horizontal synchronization signal and the vertical synchronization signal.

For example, if 50 Hz is input to a monitor adjusted to input a vertical synchronization signal at 600 Hz, the frequency of the vertical synchronization signal is reduced while the frequency of the horizontal synchronization signal is constant, so that only the thermal cycle of the vertical synchronization signal is lengthened. As the vertical size of the screen increases, the screen becomes unstable. Therefore, in order to provide a stable screen on the monitor when the frequency of the vertical synchronization signal changes, the size of the screen should be properly adjusted so that the vertical size of the screen is always constant.

The description of the screen size adjustment circuit according to the frequency change of the vertical synchronization signal is described in Korean Utility Model Application Publication No. 91-3666 (Application Date: May 18, 1987 AD). Magnitude compensation circuit.

The " screen size compensation circuit according to the variation of the vertical frequency " has an operation characteristic for compensating the size of the screen by applying a vertical adjustment signal of "low" or "high" to the vertical deflection IC of the monitor according to the vertical synchronization signal. Have

However, the "screen size compensation circuit according to the variation of the vertical frequency" has a disadvantage in that the screen size can be compensated for only two kinds of frequencies, such as 60Hz and 50Hz. This drawback is inconvenient to apply to a multi-mode monitor that must accept two or more types of vertical synchronization signals.

Accordingly, an object of the present invention is to solve the above-mentioned disadvantages, and in a multi-mode monitor that should be allowed as a vertical synchronization signal having two or more kinds, the magnitude of the vertical deflection signal is changed by changing the frequency of the vertical synchronization signal. When the value is changed, the vertical deflection signal fluctuates so that the vertical deflection IC constantly corrects the vertical size of the screen by outputting a voltage signal corresponding to the difference between the maximum value of the vertical deflection signal and the reference value to the vertical deflection IC. To provide a screen size adjustment circuit according to.

This invention has a configuration for achieving the above object, the maximum value holding unit for holding the maximum value of the vertical deflection signal is connected to the vertical deflection signal line; A differential amplifier connected to the maximum value holding unit and outputting a voltage signal proportional to a difference between the maximum value of the vertical deflection signal and a reference value; It is connected to the output terminal of the differential amplification unit and consists of a vertical deflection IC that corrects the vertical size of the screen to a certain size determined by a reference value.

Preferred embodiments of this invention by the above-described configuration will be described in detail with reference to the drawings.

1 is a detailed circuit diagram of a screen size adjusting circuit according to a change in a vertical deflection signal according to an embodiment of the present invention. As shown in FIG. 1, the configuration of the screen size adjusting circuit according to the variation of the vertical deflection signal according to the embodiment of the present invention includes a maximum value holding unit 10 having an input terminal connected to the vertical deflection signal line VS, and a maximum value. A vertical deflection IC 30 is connected to an output terminal of the value holding unit 10.

The maximum value holding unit 10 includes an operational amplifier OP11 having a non-inverting input terminal connected to the vertical deflection signal line VS, and a diode having an anode connected to the output terminal of the operational amplifier OP11. A resistor R11 and a capacitor C11 connected in parallel to the resistor R11 are connected between the connection point D11 of the diode D11 and the inverting input terminal of the operational amplifier OP11 and ground.

The differential amplifier 20 includes a resistor R21 having one terminal connected to the output terminal of the maximum value holding unit 10 and a resistor having one terminal connected to the other terminal of the resistor R21. R22), an operational amplifier OP21 having a non-inverting input terminal connected to a connection point of the resistors R21 and R22, and an output terminal connected to the other terminal of the resistor R22, and an inverting input terminal of the operational amplifier OP21 and a power supply. The variable resistor VR21 is connected between the voltage Vcc and the resistor R23 is connected to one output terminal of the operational amplifier OP21.

The operation of the screen size adjustment circuit according to the variation of the vertical deflection signal according to the implementation of this invention by the above-described configuration is as follows.

When one vertical synchronizing signal is selected and input to the multi-mode monitor, the magnitude of the vertical deflection signal VS that fixes the vertical size of the screen is changed according to the frequency of the vertical synchronizing signal. The above-mentioned vertical deflection signal VS is a signal having a shape of a sawtooth ramp, and is a signal input to a vertical deflection yoke in order to vertically deflect an electron beam emitted from an electron gun of a monitor. Therefore, the vertical size of the image displayed on the screen is determined by the maximum value of the vertical deflection signal VS.

When the vertical deflection signal VS having the sawtooth wave shape starts to increase, the vertical deflection signal VS is input to the output of the operational amplifier OP11 to the associating amplifier OP11 of the maximum value holding unit 10. The diode D11 is turned on to configure the voltage follower. Therefore, the vertical deflection signal VS input to the non-inverting input terminal of the operational amplifier OP11 is output to the resistor R11, and the capacitor C11 is charged with the maximum value of the vertical deflection signal VS.

However, when the vertical deflection signal VS having the sawtooth wave shape starts to decrease, when the non-inverting input terminal of the operational amplifier OP11 of the maximum value holding unit 10 is inputted, the output signal of the operational amplifier OP11 is a capacitor. The diode D11 is turned off because it is smaller than the voltage signal charged in C11. Therefore, the capacitor C11 stores the maximum value of the vertical deflection signal VS and maintains this value until the capacitor C11 is discharged. Then, the discharge of the capacitor C11 is started to charge the capacitor C11. When is decreased, when the vertical deflection signal VS is increased, the diode D11 is turned on again and the operation of charging the capacitor C11 to the maximum value of the vertical deflection signal VS is repeated.

The maximum value signal of the vertical deflection signal VS stored in the capacitor C11 of the maximum value holding unit 10 is input to the non-inverting input terminal of the operational amplifier OP21 via the resistor R21 of the differential amplifier 20. do.

At this time, the output terminal of the operational amplifier OP21 outputs a voltage signal adjusted by the variable resistor VR21 so that the maximum value of the reference value inputted to the inverting input terminal and the maximum value of the vertical deflection signal inputted to the non-inverting input terminal are proportional to the difference. do. Therefore, as the maximum value of the input vertical deflection signal VS increases, the difference with the reference value adjusted by the variable resistor VR21 increases, so that a voltage signal having a large value appears on the output terminal of the operational amplifier OP21.

A voltage signal proportional to the difference between the reference value and the maximum value of the vertical deflection signal VS, which is shown at the output terminal of the operational amplifier OP21, is connected to the control input terminal of the vertical deflection IC 30 via the resistor R23. Is output.

The vertical deflection IC 30 increases or decreases the vertical size of the screen according to the voltage signal input from the differential amplifier 20 to correct the reference value so that the vertical size of the screen is always kept constant.

The user can freely set the reference value adjusted by the variable resistor VR21 by arbitrarily adjusting the value of the variable resistor VR21 of the differential amplifier 20, and the reference value set by the value of the variable resistor VR21 is vertically deflected. It is used as an element to determine the vertical size of the screen by the IC 30. Therefore, the user can arbitrarily adjust the value of the variable resistor VR21 to determine the size of the desired vertical screen.

As described above, in the multi-mode monitor in which the vertical synchronization signal having two or more kinds is allowed in the embodiment of the present invention, even when the magnitude of the vertical deflection signal is changed due to the frequency of the vertical synchronization signal being changed, It is possible to provide a screen size adjustment circuit according to the fluctuation of the vertical deflection signal having the effect of always maintaining a constant vertical size. This effect of the invention can be used in the field of monitors for multimode.

Claims (3)

A maximum value holding unit 10 connected to the vertical deflection signal line VS and holding a maximum value of the vertical deflection signal input thereto; A differential amplifier 20 connected to the maximum value holding unit 10 and outputting a voltage signal proportional to a difference between the maximum value of the vertical deflection signal VS and a reference value; A screen deflection circuit that is connected to an output terminal of the differential amplifier 20 and comprises a vertical deflection IC 30 which corrects the vertical size of the screen to a predetermined size determined by a reference value. . The method of claim 1, wherein the maximum value holding section (10) comprises: an operational amplifier (OP11) connected to the non-inverting input terminal to the vertical deflection signal line (VS); A diode D11 having an anode connected to the output terminal of the operational amplifier OP11; A vertical deflection signal comprising a resistor (R11) and a capacitor (C11) connected in parallel to the resistor (R11) between the connection of the cathode of the diode (D11) and the inverting input terminal of the operational amplifier (OP11) and ground. Screen size adjustment circuit according to the change. The method of claim 1, wherein the differential amplifier 20 includes: a resistor (R21) having one terminal connected to the output terminal of the maximum value holding unit (10); A resistor R22 having one terminal connected to the other terminal of the resistor R21; An operational amplifier OP21 connected to a non-inverting input terminal at a connection point of the resistors R21 and R22 and an output terminal connected to the other terminal of the resistor R22; And a variable resistor (VR21) connected between an inverting input terminal of the operational amplifier (OP21) and a power supply voltage (Vcc).