KR910007545B1 - Brightness limitation circuit - Google Patents

Abstract

The circuit for limiting the brightness of the video without the fluctuation of the black level by reducing the contrast when the brightness of the CRT increases, includes the controller (30) for detecting the high-voltage current changed by the brightness of the CRT, the contrast controller (20) for generating the voltage of the manual contrast control, and the amplifier (10) for limiting the amplification of the video level according to the voltage change of the contrast controller (20) and the controller (30).

Description

Automatic brightness limit circuit

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10: amplification unit 11: input terminal

20: contrast adjustment unit 30: control unit

Q1, Q2: Output terminal R1-R16: Resistance

VR1: Variable resistor Q1-Q7: Transistor

D1, D2: Diode FBT: Flyback Trans

: 전원

: power

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic luminance limiting circuit that enables automatic luminance adjustment by reducing contrast and reducing image level of a CRT in a CRT-enabled product such as a TV and a monitor. .

Conventionally, when the input signal is increased, the brightness of the CRT screen is increased, and thus the ABL (Auto Bright Limit) circuit is operated. When the brightness of the CRT screen is increased and the ABL circuit is operated, the white level of the input signal is brighter. The black level is also about half as bright as the gray level.

Therefore, if the ABL circuit is operated according to the increase of the video input level, the black level is grayed out as described above. As a result, the luminance difference is generated in the black CRT and the white balance is changed in the color CRT. There was a downside.

SUMMARY OF THE INVENTION In view of the above, an object of the present invention is to provide an automatic luminance limiting circuit capable of restricting only an image portion without any change in black level by reducing contrast by decreasing contrast when the brightness of a CRT screen is increased. The control unit detects the luminance change of the CRT and controls the video level of the amplifier unit to which the video signal is applied to the output of the contrast adjustment unit.

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

The present invention provides a control unit 30 for detecting a high-voltage current flow of the flyback transformer (FBT) that changes according to the luminance change of the CRT screen, a contrast adjusting unit 20 for outputting a manual contrast adjusting potential, and the contrast adjusting unit 20. Amplification section 10 for limiting the video level amplification of the video signal to the CRT according to the adjustment potential of the < RTI ID = 0.0 >) < / RTI >

Here, the amplifier 10 inverts and amplifies the video signal input and connects the transistor Q4 to be applied to the emitters of the transistors Q2 and Q3, and the contrast adjuster 20 is connected to the base of the transistor Q3. The collector output of the transistor Q5, which changes according to the output potential of the controller 30, is connected to be applied, and the video signal output from the collector of the transistor Q2 is connected to the CRT.

In addition, the contrast adjusting unit 20 is connected such that the resistance value of the variable resistor VR1 that is changed by the user is applied to the base of the transistor Q1, and the collector potential of the transistor Q1 is applied to the amplifying unit 10. The controller 30 is connected such that the voltage change due to the high voltage current flow of the flyback transformer FBT is applied to the base of the transistor Q6 and the collector potential of the transistor Q6 is connected to the base of the transistor Q7. The connection is applied, and the collector potential of the transistor Q7 is connected to the amplifier 10.

The effect of this invention comprised in this way is demonstrated.

As the luminance of the CRT screen increases, the high voltage current applied to the cathode of the CRT is increased through the diode D1 and the output terminal O2 in the flyback transformer FBT, and thus a potential change occurs in the resistor R12. As a result, the base potential of the transistor Q6 is lowered.

When the base potential of the PNP type transistor Q6 is lowered, the collector potential increases, and the increase of the collector potential of the transistor Q6 means an increase of the base potential of the transistor Q7. Therefore, the collector potential of the NPN type transistor Q7 is increased. Will decrease.

On the other hand, when the collector potential of transistor Q7 decreases, the base potential of transistor Q5 decreases, and the collector potential of PNP transistor Q5 increases, and when the collector potential of transistor Q5 increases, collector of transistor Q2 increases. The potential decreases.

At this time, since the video signal applied to the input terminal 11 is inverted through the transistor Q4 and then applied to the common emitter contact of the transistors Q2 and Q3, the image signal output from the collector of the transistor Q2. The level is to be controlled by the base potential of transistor Q3.

That is, when the base potential of the transistor Q3 increases (the collector potential of the transistor Q5 increases), the image level applied to the CRT through the output terminal 01 at the collector of the transistor Q2 decreases, and the transistor When the base potential of Q5 decreases, the image level of the CRT increases.

As such, when the luminance of the CRT screen is increased, the collector potential of the transistor Q7 of the control unit 30 decreases and the collector potential of the transistor Q5 of the amplifying unit 10 increases accordingly, and thus the CRT of the collector of the transistor Q2 is increased. Since the image level applied to the device is reduced, automatic luminance adjustment is possible, and at this time, there is no change in the black level, and only the image part can be restricted, thereby enabling stable operation.

Contrary to the above, when the luminance of the CRT screen decreases, the high-voltage current applied from the flyback transformer FBT to the cathode of the CRT decreases, thereby increasing the base potential of the transistor Q6, and thus the base potential of the transistor Q7. When the decrease in the base potential of the transistor Q7 decreases the collector potential of the transistor Q5, the collector potential of the transistor Q2 increases.

Therefore, the image level of the video signal inverted through the transistor Q4 is increased by the collector of the transistor Q2 and supplied to the CRT, thereby enabling automatic brightness adjustment.

At this time, only the image part can be restricted without changing the black level, thereby enabling stable operation.

Therefore, the luminance difference does not occur in the black-and-white CRT and the white balance is not changed in the color CRT.

As such, automatic brightness can be adjusted by automatically converting the contrast according to the brightness change of the CRT, while manual brightness can be controlled by varying the contrast by varying the variable resistor VR1 of the contrast adjuster 20.

That is, as the variable resistor VR1 is varied, the collector potential of the NPN transistor Q1 changes, which is the same as the base potential change of the transistor Q5, so that the user adjusts the brightness by using the variable resistor VR1 to change the contrast. Will be able to.

As described above, in the present invention, when the brightness of the CRT screen is increased, the brightness is reduced to reduce the image level of the CRT, thereby enabling automatic brightness adjustment. Since only the image portion is limited without changing the black level, the luminance difference occurs in the black and white CRT. There is an effect that the white balance is not distorted in the color CRT.

Claims (4)

A control unit 30 for detecting a high voltage current flow that changes according to the luminance change of the CRT screen as a potential change, a contrast adjusting unit 20 for outputting a manual contrast adjusting potential, an adjustment potential and a control unit of the contrast adjusting unit 20 ( And an amplifying section (10) for limiting the video level amplification of the video signal to the CRT in accordance with the potential change of 30). 2. The amplifier of claim 1, wherein the amplifier 10 inverts and amplifies the video signal in the transistor Q4 so as to be applied to the emitters of the transistors Q2 and Q3, and a contrast adjusting unit is provided at the base of the transistor Q3. An automatic luminance limitation is configured in which the collector potential of the transistor Q5, which is changed according to the output potential of the control unit 30, is applied, and the image signal output from the collector of the transistor Q2 is applied to the CRT. Circuit. The contrast adjusting unit 20 is connected so that the resistance value of the variable resistor VR1 which is changed by the user is applied to the base of the transistor Q1, and the collector potential of the transistor Q1 is amplified by the amplifier 10. Automatic luminance limiting circuit configured to be connected to). The control unit 30 is connected to a voltage change caused by the high voltage current flow of the flyback transformer FBT to be applied to the base of the transistor Q6, and the collector potential of the transistor Q6 is connected to the transistor Q7. And a collector potential of the transistor (Q7) connected to be applied to the base of the amplifier.

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