KR960003374Y1 - Brightness control circuit for tv - Google Patents

Abstract

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Description

TV luminance control circuit

1 is a block diagram of a television having a conventional teletext function;

2 is a block diagram of a luminance control circuit of a television according to the present invention;

* Explanation of symbols for main parts of the drawings

1 tuner 3 intermediate frequency amplifier

5: micom 7: teletext section

10: image processing circuit 20: control circuit

CRT: Cathode Ray Tube Q1: Transistor

ZD1: Zener Diodes R1-R3: Resistance

The present invention relates to a television having a teletext function, and more particularly, to a luminance control circuit of a television that can prevent a sudden change in luminance when a cathode ray tube displays a character broadcast while displaying a general broadcast. .

As the technology for television broadcasting develops, when the text signal is transmitted together with the video signal using a part of the vertical blanking period of the television video signal, the teletext enables the user to select and watch the television video signal or the text signal that is being broadcast. Broadcast is becoming common.

FIG. 1 is a schematic block diagram of a television capable of receiving such a teletext broadcast. The intermediate image amplifier CS amplifies the complex video signal CS received through the tuner 1 while amplifying the intermediate frequency signal. Done. In addition, the image processing circuit 10 applies the intermediate frequency composite video signal to the cathode ray tube CRT, thereby displaying a general broadcast on the cathode ray tube CRT. In this case, the user may control the microcomputer 5 by using a remote controller (not shown) to adjust brightness, color, screen size, etc. of the image displayed by the circuit 10 by the image processing. That is, the microcomputer 5 adjusts the brightness and the like of the image displayed on the cathode ray tube CRT by applying a fluctuation control voltage BRi or the like controlled by the user to the image processing circuit 10.

However, when the user wants to watch a text broadcast received through the composite video signal CS, the microcomputer 5 applies a control signal to the teletext unit 7 to drive the same. The teletext unit 7 is driven under the control of the microcomputer 5 to detect a text signal among the complex video signals of the intermediate frequency amplifying unit 3 to signal R, G, and B colors, and the image processing circuit. A high level switching signal SW is applied to (10). In this case, when the low level switching signal SW is applied from the teletext unit 7, the image processing circuit 10 inputs and processes a composite image signal of the intermediate frequency amplifying unit 3. When the switching signal is applied, it is configured to input and process the R, G, and B color signals of the teletext unit 7, so that the cathode ray tube is processed by processing the R, G, B color signals of the teletext unit 7. By displaying on the (CRT), a character signal is displayed on the cathode ray tube.

However, in such a conventional television, the brightness of the screen displayed through the cathode ray tube (CRT) is much higher when displaying a text signal than the brightness of a general broadcast signal, thereby causing fatigue to a user's eyes. Accordingly, when the user watches the general broadcast while watching the general broadcast, the user controls the microcomputer 5 to lower the brightness control voltage BRi applied to the image processing circuit 10 to have the same brightness as the general broadcast. I've been watching text broadcasting.

However, the method of adjusting the brightness using the microcomputer as described above has been inconvenient because it is necessary to adjust the brightness whenever the user changes from general video broadcasting to text broadcasting or text broadcasting to general video broadcasting.

The present invention has been made to solve this problem, and an object of the present invention is to control the luminance control voltage level applied from the microcomputer to the image processing circuit using the switching signal output from the teletext unit, thereby displaying the general image displayed on the cathode ray tube. There is provided a luminance control signal of a television which allows broadcasting and text broadcasting to maintain the same brightness.

A feature of the present invention for achieving this object is a control circuit configured between a teletext unit, a micom, and an image processing circuit to drive the teletext unit when driving to control a luminance control voltage applied from the micom to an image processing circuit. Is in.

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

2 is a luminance control circuit diagram of a television according to the present invention, which includes a control circuit (not shown) in a conventional tuner (10), an intermediate frequency amplifier (3), a microcomputer (5), a teletext unit (7), and an image processing circuit (10). 20) is added further.

In more detail, the tuner 1 for receiving the composite video signal CS having a predetermined frequency band under the control of the user is connected to the intermediate frequency amplifier 3. In this case, the intermediate frequency amplifier 3 converts the input composite video signal CS into an intermediate frequency signal and amplifies and outputs the intermediate frequency signal. The microcomputer 5 outputs a control signal and a brightness control voltage BRi according to a user's adjustment by a remote controller, not shown. The teletext unit 7 is driven according to the control signal of the microcomputer 5, inputs the composite video signal CS of the intermediate frequency amplifying unit 3, detects only a text signal, and then R, G, The B-color signal is output while the high-level switching signal SW is output during driving. The image processing circuit 10 is connected to the intermediate frequency amplifier 3, the microcomputer 5, and the teletext unit 7 so that a low level switching signal SW is generated from the teletext unit 7. When applied, the composite image signal CS of the intermediate frequency amplification unit 3 is processed and applied to the cathode ray tube CRT, but when a high level switching signal is applied, R, G, B of the teletext unit 7 is applied. The cathode ray tube CTR is applied by processing a color signal. In this case, the image processing circuit 10 is configured to adjust the luminance levels of the R, G, and B color signals applied to the cathode ray tube CRT according to the luminance control voltage BRi applied from the microcomputer 5.

In addition, the control circuit 20 connects the switching transistor Q1 to the teletext unit 7, and connects the collector of the transistor Q1 to the microcomputer 5, thereby transmitting the teletext unit 7. When a high level switching signal is applied from the transistor Q1, the transistor Q1 is driven so that the luminance control voltage BRi of the microcomputer 5 does not become above a predetermined level. At this time, the zener diode ZD1 connected to the emitter of the transistor Q1 is for constant voltage and bias, and the resistors R1 to R3 are for bias.

The luminance control circuit of the television according to the present invention configured as described above causes the microcomputer 5 to stop driving by controlling the teletext unit 7 when the user wants to watch a general broadcast through a cathode ray tube (CRT). The teletext section 7 outputs a low level switching signal SW. Therefore, since the composite video signal CS of the intermediate frequency amplifier 3 is processed by the image processing circuit 10 and applied to the cathode ray tube CRT, the general broadcast is displayed on the cathode ray tube CRT. At this time, since the switching signal SW is at a low level, the transistor Q1 is turned off so that the luminance control voltage applied by the microcomputer 5 to the image processing circuit 10 is not changed. However, when the teletext unit 7 is driven by the control of the microcomputer 5, the teletext unit 7 detects a text signal from the composite video signal CS of the intermediate frequency amplifying unit 3. As a result, a high-level switching signal SW is applied to the image processing circuit 10 while outputting the R, G, and B color signals. Accordingly, the image processing circuit 10 processes R, G, and B color signals of the teletext unit 7 and applies them to the cathode ray tube CRT, but the luminance control voltage BRi applied from the microcomputer 5 is It is controlled by the control circuit 20. That is, since the switching signal SW is at the high level, the transistor Q1 is turned on so that the potential at the contact point A is for biasing the voltage V _CE between the emitter and the collector when the transistor Q1 is in the on state. It is determined by the load voltages of the resistors R2, R3 and the zener diode ZD1. That is, when the voltage applied to the zener diode ZD1 becomes equal to or higher than the zener breakdown voltage, the potential of the contact point A is the load voltage VR2 by the resistor R2 and the load voltage by the zener diode ZD1 ( The conduction voltage V _CE of the transistor Q1 is added to VZD1. That is, the luminance control voltage applied to the image processing circuit 10 even if the luminance control voltage of the microcomputer 5 is greater than the sum of the voltages VR2, VZD1, and V _CE . is to reduce the brightness of the characters to be displayed to the potential of the voltage (VR2), (VZD1), this is, a cathode ray tube (CRT) (V _CE 2) of the contact (a). In addition, when the zener diode ZD1 does not break down due to the brightness control voltage BRi of the microcomputer 5, the potential of the contact point A becomes the load voltage VR2 caused by the resistors R2 and R3. , VR3 and the conduction voltage V _CE of the transistor, so that the level of the luminance control voltage applied to the image processing circuit 10 is lowered so that the brightness of the characters displayed on the cathode ray tube CRT is low. You lose. At this time, the capacity of the resistors (R2), (R3) and zener diode (ZD1) is the user when the image displayed on the cathode ray tube (CRT) is changed from the general broadcast image to the character image by the teletext unit 7 Will be set to a value that can lower the brightness control voltage so that the brightness cannot feel a change.

In other words, the present invention causes the brightness control voltage applied from the microcomputer to the image processing circuit to be lowered by a predetermined level by the control circuit when the text broadcasting by the teletext unit is displayed on the cathode ray tube. And it is effective to be able to watch without changing the brightness of the character image by the teletext unit.

Claims (2)

A microcomputer 5 for outputting a control signal and a brightness control voltage BRi according to the user's control, and an intermediate frequency amplifier 3 for amplifying the composite video signal CS received through the tuner 1 into an intermediate frequency signal 3. ) And a text signal detected from the switching signal SW and the intermediate frequency signal as R, G, and B color signals according to the control signal of the microcomputer 5. It is connected to the teletext section 7, the intermediate frequency amplifier section 3, the teletext section 7, and the microcomputer 5, selectively depending on the teletext section 7 switching signal SW. Processes the intermediate frequency signal of the intermediate frequency amplification unit, the R, G, B color signals of the teletext unit 7, and adjusts the luminance according to the luminance control voltage BRi of the microcomputer 5 to produce a cathode ray tube. A television comprising an image processing circuit 10 applied to the teletext, (7) connected between the microcomputer 5 and the image processing circuit 10, and driven according to the switching signal of the teletext unit 7 to adjust the brightness control voltage BRi of the microcomputer 5; And a control circuit (20) applied to said image processing circuit (10). The control circuit 20 of claim 1, wherein the control circuit 20 is connected between the teletext unit 7 and the microcomputer 5 to drive the luminance control voltage BRi by driving according to the switching signal SW. A switching transistor Q1, a bias zener diode ZD1 connected to the switching transistor Q1, and a bias resistor R3 connected between the transistor Q and the zener diode ZD1. A luminance control circuit of a television, characterized in that.