KR910003623Y1 - Conversion control circuit of teletext picture screen - Google Patents

Abstract

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Description

Switching control circuit of teletext display

1 is a circuit diagram of the present invention.

2 is a sub waveform diagram of the present invention.

* Explanation of symbols for main parts of the drawings

5: Integrating Circuit 10: Vertical Synchronization Signal Detection Unit

15: 15H Delay FF ₁ -FF ₃ : D-Flip Flip

I ₁ : Inverter MM ₁ , MM ₂ : Monostable Multivibrator

R _1, R ₂ : resistor C _1, C ₂ : condenser

The present invention relates to a switching control circuit of a text multicast screen so that a channel without a text multicast is not switched to a text multiscreen.

In general, a text multicast receiver converts a TV screen to a text multiscreen by a control such as a remote control transmitter regardless of the presence of a text multicast signal. Even if the channel does not broadcast, you may want to watch a multi-text screen, and at this time, no information appears on the screen, so there was a problem in that the multi-text receiver was mistaken as a failure.

That is, when the text multicast receiver controls the function to switch to the text multiscreen, the horizontal blanking signal and the color burst signal of the composite video signal are detected in the text multiple board to control the switching operation of the switch board. The character multi-screen was reproduced by outputting the character multi-cast data including the signal, the color burst signal, and the text multi information.

However, the horizontal blanking signal and the color burst signal in the composite video signal are detected by the multi-board, even in the channel without the multi-text broadcasting. Only the horizontal sync signal and the color burst signal are applied. No information is displayed on the screen because is not applied.

Therefore, when the user does not know that the channel does not do multi-text broadcasting and control the multi-text broadcasting function, there is a problem in that no information is displayed on the screen, which causes a malfunction.

Therefore, the present invention detects the presence or absence of the character multiple information in the character multiple board by controlling the switch board and outputs the appropriate control signal so that the television screen is forcibly reproduced when there is no character multiple information.

That is, the present invention prevents the receiver's screen from switching to the character multi-screen even if the character multi-broadcasting function is controlled by a remote control transmitter in a channel that does not multi-text. Detects the sampling signal generated when it exists in the vertical retrace period, reads the presence or absence of multi-character data in the vertical retrace period, and controls the control signal applied to the switch board according to the read result. It is configured to switch to.

This will be described in detail with reference to the accompanying drawings.

After the horizontal and vertical composite synchronization signals are integrated in the integrating circuit 5, the vertical synchronization signal detector 10 is configured to detect the vertical synchronization signals through the D-flip flop FF ₂ . The output is configured to be applied to the load terminal LD of the monostable multivibrator MM ₁ , which is retriggered after being delayed by the 15H delay unit 15, and the composite synchronization signal and the sampling signal output processed by the microcomputer are used to detect the sampling signal. D- flip-flop to be in the D- flip-flop (FF ₁₎ the time constant receiving resistor (R ₁₎ is standing in Golden (C ₁₎ after detecting the fountain spring pulses of character broadcast data is associated with data in the presence (FF ₁₎ It is configured to be applied to the trigger terminal ▷ of the detection monostable multivibrator MM ₁ .

The output of the monostable multivibrator MM ₁ is applied to the trigger terminal △ of the monostable multivibrator MM ₂ for generating the control signal and is inverted by the inverter I ₁ , and then the D-flip for holding the control signal. configured to be applied to the load terminal (LD) of the flop (FF ₃₎ and configured to be applied to the preset terminal (PS) of the monostable multivibrator (MM ₂₎ which is re-trigger the output of the D- flip-flop (FF _3), and The output of the monostable multivibrator MM ₂ connected to the visibility receiving resistor R ₂ and the capacitor C ₂ is output as a control signal and is applied to the input terminal D of the D-flop flop FF ₃ . will be.

The control signal output of the monostable multivibrator MM ₂ controls the signal controlling the switch of the switch board in the character multiple boards, so that the character multi-screen is switched only when the character multiple data exists.

In the present invention, when a high level is applied to the load terminal D, an output corresponding to the input is output. When a high level is applied to the preset terminal PS, the output is always in a high level regardless of the input state. do.

The present invention configured as described above will be described in detail with reference to FIG.

First, the horizontal and vertical composite synchronous signals as shown in FIG. 2A are applied to the integrating circuit 5 of the vertical synchronous signal detection unit 10 and simultaneously to the load terminal LD of the D-flip flop FF ₁ for sampling signal detection. The output signal integrated in the integrating circuit 5 is applied to the input terminal D of the D-flip flop FF ₂ to detect the vertical synchronizing pulse section as shown in FIG. Serve

That is, the composite synchronous signal outputs a high level through the vertical synchronous signal detector 10 as shown in FIG. 2B during the vertical synchronous pulse period, and the output of the vertical synchronous signal detector 10 is supplied to the 15H delay unit 15. It is applied to generate a delay pulse as in Fig. 2c during the television horizontal line period of 15H at the falling edge of the vertical sync pulse.

The reason why the 15H delay unit 15 delays for 15H is to detect the presence of the text multicast data only during this period because the text multicast data is loaded during this period.

The input of the 15H delay unit 15 in the output, such as in 2c also is applied to the load terminal (LD) of the monostable multivibrator (MM ₁₎ monostable multivibrator (MM ₁₎ of the load terminal (LD) It only works at high level.

At this time, the monostable multivibrator (MM ₁ ) is a single-stable multivibrator that is retriggered to generate an output having a width of time constant determined by the resistor (R ₁ ) and the condenser (C ₁ ). When the input signal is input again during the time period, the output retriggered to the signal is extended by the time constant width of the resistor R ₁ and the capacitor C ₁ .

On the other hand, the composite synchronous signal input to the load terminal LD of the D-flip flop FF ₁ for sampling signal detection is compared with the sampling signal input input from the character multiple recorder circuit.

The sampling signal applied to the input terminal D of the D-flip-flop FF ₁ is an output of the final processing from the microcomputer and is a signal for sampling the character multiple data during the vertical retrace period. If it is applied in the same waveform as in FIG. 2d and there is no text multicast data, the input terminal D of the D-flip-flop FF ₁ is applied in the waveform as in FIG. 2e.

At this time, if a low level is applied to the load terminal LD of the sampling signal detection D-flip flop FF ₁ , the input of the input terminal D is ignored. Is maintained at low level and high level is applied to the load terminal LD, the input terminal D outputs the output corresponding to the input terminal. Will be output from

Therefore, when the output terminal of the teletext data is present in the vertical blanking time D- flip-flop (FF ₁₎ an input terminal (D) is applied to the waveform such as in Fig. 2d the D- flip-flop (FF ₁₎ of In Fig. 2f, the output waveform is applied to the trigger terminal? Of the monostable multivibrator MM ₁ for detecting the presence or absence of data.

The waveform as shown in FIG. 2c is applied to the load terminal LD of the monostable multivibrator MM ₁ to be retriggered, and the waveform as shown in FIG. The output terminal Q of the monostable multivibrator MM to which R ₁ ) and the condenser C ₁ are connected is output as shown in FIG. 2G.

At this time, when the trigger pulse is input to the trigger terminal (▷), the monostable multivibrator (MM ₁ ) for detecting the presence of data maintains the output terminal (Q) output at a high level at all times, but the input of the load terminal (LD) is at a low level. If it falls, the output of the output terminal Q is dropped to the low level.

That is, when the waveform of FIG. 2c is applied to the load terminal LD and the waveform of FIG. 2f is applied to the trigger terminal ▷, the monostable multivibrator MM ₁ has the same waveform as in FIG. 2g at the output terminal Q. Will be output.

The output of such a monostable multivibrator (MM ₁ ) is applied to the trigger terminal (△) of the monostable multivibrator (MM ₂ ) for generating a control signal and at the same time through the inverter (I ₁ ), the D-flip flop for maintaining the control signal. The vertical blanking signal and the color burst signal in the composite video signal which is applied to the load terminal LD of (FF ₁ ) and controls the switching operation of the switch board in the character multiple board as a control signal output of the monostable multivibrator (MM ₂ ). To control the detected control signal.

That is, the control signal output of the monostable multivibrator MM ₂ is used to control the control signal for controlling the stool board in the character multiple board.

At this time, the control signal holding D-flip flop FF ₃ is for maintaining the control signal output waveform during the video period when the input signal waveform of the control signal generating monostable multivibrator MM ₂ is at a low level. monostable load terminal (LD) of the multivibrator (MM ₁₎ D- flip-flop (FF ₁₎ to the waveform of an output waveform such as in Fig. 2g at the output is reversed by the inverter (I ₁₎ in the first 2h of Fig. The output terminal (Q) output of the monostable multivibrator (MM ₂ ) to be retriggered is applied to the input terminal (△).

Therefore, the output terminal Q of the D-flip flop FF ₃ is monostable by generating an output pulse corresponding to the input of the input terminal D while the load terminal LD becomes high level after 15H of data detection time. It is input to the preset terminal PS of the multivibrator MM ₂ .

At this time, in the monostable multivibrator MM ₂ for generating the control signal, the output of the output terminal Q is always maintained at a high level when the preset terminal PS is in a high level state.

Therefore, the monostable multivibrator (MM ₁ ) output in the presence of character multi-data is output at a high level as shown in FIG. 2g, and this output waveform is passed through the inverter (I ₁ ) and then the D-flip flop for holding the control signal ( FF ₃ ) to output the control signal output of the monostable multivibrator MM ₂ for control signal generation to a high level as shown in FIG. 2i. As shown in FIG. 2j, the low level is output as a control signal.

As a result, the present invention outputs a high level to the output side of the monostable multivibrator MM _{2 when} the character multiple data exists, and outputs a low level when the character multiple data does not exist.

Therefore, if the control signal output of the monostable multivibrator (MM ₂ ) is a high level output as shown in FIG. 2i, multi-character data exists. Therefore, the control signal for controlling the switch board is output as it is. If the control signal output of the monostable multivibrator (MM ₂ ) is a low level output as shown in FIG. 2j, the character multi-data does not exist. Therefore, the control signal for controlling the switch board is used. By blocking it, the switch board is not operated so that the TV screen can be maintained without switching to the multi-text display.

As described above, the present invention does not switch to the character multi-screen in the channel without the character multi-broadcast in the text multi-broadcast receiver, so that no information is output by switching to the character multi-screen in the channel without the conventional multi-text broadcasting. To solve the problem.

Claims (2)

The vertical synchronization signal detection unit 10 including the integrating circuit 5 for detecting the vertical synchronization signal in the composite synchronization signal and the D-flip flop FF ₂ , and sampling the character multicast data by comparing the composite synchronization signal with the sampling pulse. D-flip-flop FF ₁ for detecting a signal, the output of the 15H delay unit 15 for delaying the output waveform of the vertical synchronization signal detector 10H by 15H, and the output of the D-flip-flop FF ₁ . A monostable multivibrator (MM ₁ ) for outputting multiple data presence waveforms, a D-flip flop (FF ₃ ) for maintaining and outputting a control signal with the text multiple data presence waveform, and a monostable multivibrator screen. Switching control circuit. According to claim 1, D- flip-flop (FF ₃₎ is the output of the monostable multivibrator (MM ₁₎ is applied to the load terminal (LD) via an inverter (I ₁₎ an input terminal (D), the monostable multi- A switching control circuit for a character multicasting screen configured to apply an output of a vibrator (MM ₂ ) and an output of an output terminal (Q) to a preset terminal (PS) of a monostable multivibrator (MM ₂ ).