KR900006837Y1 - Automatic level control circuit of teletext color signals - Google Patents

Abstract

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Description

Teletext color signal level automatic control circuit

1 is a conventional teletext color signal level control circuit diagram.

2 is a schematic diagram of a teletext embedded television equipped with a teletext color signal level automatic control device of the present invention.

3 is a detailed circuit diagram of the teletext color signal level automatic control unit of FIG.

* Explanation of symbols for main parts of the drawings

1 tuner 2 medium frequency detector

3: video signal processor 4: an analog switch

5: teletext decoder 6: color signal level automatic control unit

7: microprocessor 8: color CRT

TR1-TR3: Transistor D1-D3: Diode

R1-R10: Resistor C1-C4: Capacitor

I1: Inverter Gate

The present invention relates to a teletext embedded television, and in particular, a teletext color signal level automatic control circuit for adjusting the color signal level of the teletext to display the teletext characters more clearly when the television screen and the teletext screen overlap. It is about.

The conventional teletext color signal level control circuit inputs an image signal separated from the intermediate frequency detector as shown in FIG. 1 and outputs a television color signal under the control of the microprocessor 7. A teletext decoder 5 for decoding a video signal output from the intermediate frequency detector and outputting a teletext signal, and teletext according to the teletext signal output from the teletext decoder 5 Color signal level control unit 6 composed of transistors TR1, TR2, TR3, resistors R1-R6, and capacitors C1-C3 for controlling the color signal level, and outputted from the teletext decoder 5 An analog switch 4 which is switched by a blanking signal and selectively outputs the television signal of the image signal processing section 3 and the teletext signal of the color signal level control section 6 to the color brown tube 8; ).

The operation of the conventional teletext color signal level control circuit configured as described above and its problems will be described as follows.

The broadcast signal received by the antenna is divided into a voice signal and a video signal by the intermediate frequency detector after each channel is tuned by the microprocessor 7 in the tuner, or the video signal separated by the intermediate frequency detector is It is divided into teletext signals and applied to the image signal processor 3 and the teletext decoder 5. The television signal is adjusted by the microprocessor 7 in the image signal processor 3, and then the luminance, contrast and color are adjusted. Color signals R, G, and B are applied to the terminals of the analog switch 4, and the teletext signals are decoded by the teletext decoder 5 and adjusted to the teletext color signals R, G, and B. It is applied to each base of the transistors TR1-TR3 configured in the level control unit 6 to turn on the transistors TR1-TR3. Therefore, the power of the power supply terminal Vcc is divided by the resistors R1-R6 and the DC component is cut off by the capacitors C1-C3 and then applied to each terminal of the analog switch 4.

At this time, the movable terminal of the analog switch 4 is selectively switched by the blanking signal output from the teletext decoder 5 to be displayed on the color CRT 8.

However, in such a conventional teletext color signal level control circuit, since the teletext color signal is constantly applied to the analog position by a fixed resistor, the television screen has a constant color signal level regardless of the brightness, and also the television screen and the teletext character type. When the TV screen is white and the teletext character type is white when overlapping modes, the teletext character is hardly readable.

The present invention has been devised to read teletext characters more clearly by automatically controlling the teletext color signal level according to a television screen in view of the above drawbacks. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Is as follows.

2 is a schematic diagram of a teletext-embedded television equipped with a teletext color signal level automatic control device of the present invention. As shown therein, a tuner tunes each channel by a microprocessor 7 to a broadcast signal received by an antenna AT. (1), an intermediate frequency detector (2) for inputting an intermediate frequency tuned and output from the tuner (1), and then outputting the intermediate frequency separated by an audio signal and a video signal, and the intermediate frequency detector (2). The audio signal outputted from the audio signal processor 9 and the video signal outputted from the intermediate frequency detector 2 are processed under the control of the microprocessor 7. The video signal processor 3 processing and outputting the color signal RGB and the video signal separated from the intermediate frequency detector 2 are decoded under the control of the microprocessor 7 and converted into a teletext color signal RGB.A color signal level automatic controller 6 for controlling the level of the teletext decoder 5 and the teletext color signal RGB output from the teletext decoder 5 according to the contrast signal of the microprocessor 7 And the television color signal RGB of the image signal processing unit 3 and the teletext color signal RGB of the color signal level automatic control unit 6 to be switched by a blanking signal output from the teletext decoder 5. It is configured as an analog switch 4 to be selectively outputted by the reference.

FIG. 3 is a detailed circuit diagram of the teletext color signal level automatic control section 6 of FIG. 2, and as shown therein, the microprocessor 7 for adjusting the contrast, brightness, and color of the television color signal RGB and the teletext color signal RGB. Is connected to the input terminal of the inverter gate (I1), and the output terminal of the inverter gate (I1) is connected to the power terminal (Vcc) at one end through the resistor (R10) and the capacitor (C4) composed of an integrating circuit The other end of the resistor R9, and the connection point of the output terminal of the integrating circuit and the resistor R9 is connected to the output terminal of the teletext decoder 5 and the transistor TR1- via the resistors R8 and R7. It is configured by connecting to the cathodes of diodes D1-D3 commonly connected to the base of TR3).

Referring to the effects of the present invention configured in this way in detail as follows.

When power is supplied to the teletext-embedded television and the broadcast signal is received from the antenna AT, the signal is tuned to the intermediate frequency detector 2 by the tuner 1 by the adjustment of the microprocessor 7. The intermediate frequency detector 2 separates the intermediate frequency signal into an audio signal and a video signal, and the audio signal is processed by the audio signal processor 9 and then output by the speaker 10. The television signal is divided into a teletext signal and input to the image signal processor 3 and the teletext decoder 5, which is controlled by the microprocessor 7 in the image signal processor 3 to adjust the brightness and contrast and After the color is adjusted, the television color signals R, G, and B are applied to the respective terminals of the analog switch 4, and the brightness and the control in the teletext decoder 5 are controlled by the microprocessor 7. The teletext color signal of which the text and color are adjusted is controlled by the color signal level automatic control unit 6 and applied to each terminal of the analog switch 4, and then the analog switch 4 is controlled by the blanking signal output from the teletext decoder 5. (A), (b), (c), and (a), (b), (c) are activated to selectively switch the television color signal RGB and the teletext color signal RGB to display on the color CRT 8.

When the present invention operated by the systematic signal flow as described above in detail by the circuit operation as follows.

As illustrated in FIG. 2, a video signal is input to the video signal processing unit 3 and a teletext signal is input to the teletext decoder 5, and then output from the video signal processing unit 3 to the analog switch 4. The luminance, contrast and color are adjusted by the output signal of the microprocessor 7, and the contrast signal which is an output signal to the microprocessor 7 is an inverter configured in the color signal level automatic control unit 6. Inverted through gate I1, voltage-divided by resistors R9 and R10, smoothed by capacitor C4, and voltage-divided again by resistors R7 and R8 to diodes D1-D3. Is applied to the cathode.

In this state, if the teletext color signal RGB of the teletext decoder 5 whose luminance, contrast, and color are adjusted and output by the microprocessor 7 is higher than the voltage applied to the cathodes of the diodes D1-D3, the diode Since the teletext color signal RGB is bypassed through the diodes D1-D3 and the resistor R7, the teletext color signal applied to the base of the transistor TR-TR is turned on. The RGB is lowered and the transistors TR1-TR3 are turned off. Therefore, the power of the power terminal Vcc applied to the collector is cut off so that the teletext color signal is darker than the TV screen.

On the contrary, when the teletext color signal RGB output from the teletext decoder 5 is lower than the voltage applied to the cathodes of the diodes D1-D3, the diodes D1-D3 are turned off, and thus the transistors TR1-TR3 are turned off. The teletext color signal RGB applied to the base of the transistor becomes as high as possible so that the transistors TR1-TR3 are turned on. Therefore, the power of the power supply terminal Vcc is divided by voltage through the resistors R1-R6, and the DC component is removed through the capacitors C1-C3. Switched at 4) it is displayed brightly in the color tube (8).

As described above, the teletext color signal level can be automatically controlled according to the brightness of the television screen of the present invention, so that the teletext character can be read more clearly when overlapping modes.

Claims (1)

In the teletext color signal level control circuit which adjusts the teletext color signal output from the teletext decoder 5 to the microprocessor 7 and switches to transistors TR1-TR3 to adjust the color signal level, the microprocessor 7 ) Is connected to the resistor (R10) and the capacitor (C4) composed of an integrating circuit through the inverter gate (I1), and to the other end of the resistor (R9) connected to the power terminal (Vcc) at one end thereof. A through the resistors R8 and R9 are connected to the cathodes of the diodes D1-D3 connected to the output terminals of the teletext decoder 5 by a teletext color signal level automatic control circuit.