KR910004285B1 - Color television including teletext and satellite broad-casting receiver - Google Patents

Abstract

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Description

Color TV with Teletext and Satellite Broadcast Receivers

Circuit diagram of the present invention

* Explanation of symbols for main parts of the drawings

20: data extraction section 21: digital teletext processor

23: encryption reading and decoding unit 25: vertical synchronization signal reproduction circuit

27, 28: analog switch 40: TV signal processing unit

50: satellite broadcast signal processing unit

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to color televisions with built-in teletext and satellite broadcast receivers, and constitutes an integrated television capable of receiving teletext signals including a function of decrypting satellite broadcast signals. Conventionally, a satellite broadcast receiver and a teletext receiver exist as independent systems, and a simple type of satellite broadcast receiver built-in color television has recently appeared, but there is no color TV with a built-in satellite broadcast receiver capable of decrypting satellite broadcast signals.

In addition, conventionally, in order to reproduce the collapsed vertical synchronization signal after receiving the encrypted satellite broadcast signal and decrypting the encryption signal, a complicated and expensive circuit has to be used. In view of the above, the present invention is to operate a color television integrated with a teletext receiver and a satellite broadcast receiver, which existed as an independent system, and to receive a teletext signal including a function of decrypting a satellite broadcast signal. The TV signal processor, the satellite broadcast signal processor and the satellite broadcast signal processor used in each system in the color television are used. The teletext signal encoding is performed using the conventional method and the satellite broadcast signal decoding is included in the vertical blanking period. After the extracted encryption signal is extracted using the data extracting unit, the extracted encryption signal is compared with the encryption signal input by the user to reproduce the collapsed vertical synchronization signal in the vertical synchronization signal reproduction circuit. That is, the present invention configures the satellite broadcast signal and the teletext signal to be selected by an analog switch switched by a control signal of a microprocessor, and the encrypted satellite broadcast signal is applied to the data extracting unit for detecting the teletext signal to extract an encryption signal. After that, the encryption signal extracted from the encryption reading and decoding unit and the encryption signal input by the user are compared to each other and configured to drive the vertical synchronization signal regeneration circuit to reproduce the collapsed vertical synchronization signal.

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

The television signal applied to the TV antenna 1 is tuned by the TV tuner 2 and amplified by the image intermediate frequency amplifier 3, and then the video signal is connected to the image signal detector 4 and the image signal amplifier 5. The TV signal processor 40 and the satellite broadcast processor 50 for processing the satellite broadcast signal and the TV signal processor 40 configured to be output through the audio signal detector 6 and output through the audio signal detector 6 are configured together in the TV signal. The video signal of the processing unit 40 is configured to be applied to the analog switches 27 and 28, and the audio signal is applied to the audio switch 29. The video signal of the satellite broadcasting signal processing unit 50 is the analog switch 27. And an audio signal is applied to the audio switch 29.

At this time, the satellite broadcast signal processing unit 50 converts the satellite broadcast signal applied to the parabolic antenna 7 into a 1st intermediate frequency signal in the LNB (Low Noise Block Converter) 8 and converts the satellite broadcast signal into a 2nd intermediate frequency signal in the satellite broadcast tuner 9. After the conversion, it is amplified by the 2nd intermediate frequency amplifier 10 and detected by the image detector 11, and then the video signal is output through the image signal amplifier 12 and the demodulator 13, and the audio signal is passed through the audio band. It is configured to be output through the filter 14 and the audio detector 15. The microprocessor 18 is configured to perform the overall control of the present invention with a program stored in the room 19 by the mode selection signal of the transmitter 16. The control signals of the microprocessor 18 are input and output ports. After controlling the LEDs for the teletext drive display LED1 and the LED for displaying the satellite broadcasting reception LED2 through the 17, the analog switches 27, 28 and the audio switch 29 It is configured to control the switching and at the same time controls the sentence information signal of the dynamic RAM 24 and at the same time to extract the encryption signal input by the user in the encryption reading and decoding unit 23, and then extracted in the data extraction unit 20 The driving of the vertical synchronization signal reproducing circuit 25 is controlled in comparison with the encrypted signal of the satellite broadcast signal.

That is, the teletext signal of the TV signal processor 40 and the satellite broadcast signal of the satellite broadcast signal processor 50 are vertically applied to the data extractor 20 through the analog switch 927 controlled by the microprocessor 18. It is configured to extract the encryption signal of the teletext digital signal and the satellite broadcast signal included in the blanking period, and the teletext signal extracted by the data extraction unit 20 is processed in the digital teletext processor 21 and the cathode ray tube controller 22. It is configured to apply the character information signal stored in the dynamic RAM 24 to the analog switch 28 as a teletext RG B signal. The vertical synchronization signal reproducing circuit 25 is driven when the two signals coincide with each other by comparing the encrypted signal inputted to the decoding unit 23 and the user input signal. By the configuration to play the fall of a vertical synchronizing signal of the encrypted satellite signals configured to be applied to the analog switch 28.

At this time, when the two signals coincide in the encryption only and the decoding unit 23, the digital audio decoding circuit 26 is driven to decode the audio signal and then apply the audio signal to the audio switch 29. Accordingly, the analog switch 28 switched by the microprocessor 18 outputs one of a teletext RGB signal, a decoded satellite broadcast signal, a general television signal, and a VTR signal of the VTR source 30. Also at 29, the microprocessor 918 is selected from the four signals to be output through the audio amplifier 31.

In the drawings, reference numerals R1 and R2 denote current limiting resistors.

The present invention aims to provide an integrated color television system using a teletext receiver and a satellite broadcast receiver as one system, and in particular, includes a decryption function of the satellite broadcast receiver. Thus, the effect of the present invention according to each operation mode will be described.

The composite video signal input through the TV antenna 1 is selected as a channel to be selected by the TV tuner 2 and then amplified by the image intermediate frequency amplifier 3 so that the audio signal is switched through the audio detector 6. The video signal is detected by the video signal detector 4 and amplified by the video signal amplifier 5 to be applied to the analog switches 27 and 28.

That is, the television video signal and the teletext signal applied to the television antenna 1 are applied to the analog switches 27 and 28 by the control signal of the microprocessor 18 controlled according to the function selection of the transmitter 16. Will be selected.

First, when the teletext reception mode is set using the transmitter 16, the microprocessor 18 "turns on" the light emitting diode LED1 for the teletext drive display through the input and output ports 17 and simultaneously switches the analog switch. The control signal is applied to (27) and (28) so that the teletext signal of the TV signal processor 40 is selected in the analog switch 27 and the teletext applied in the cathode ray tube controller 22 in the analog switch 28. The RGB signal is selected to be output as a video signal.

The teletext signal of the TV signal processor 40 selected by the control signal of the microprocessor 18 in the analog switch 27 is applied to the data detector 20 to be included in the vertical blanking period of the video signal. After extracting the digital signal, the extracted digital signal is subjected to data processing by the digital teletext processor 21. The processed data is converted into character data stored in the dynamic RAM 24 by the cathode ray tube controller 22, and the analog switch 28 ), A teletext RGB signal is applied.

Therefore, the analog switch 28 outputs a teletext R.G.B signal as a video signal, so that the user can display various information such as diary, weather, stock quote, etc. in a teletext mode.

In this case, the control of the present invention is performed by a program stored in the ROM 19 by the microprocessor 18. However, when the user selects the general television mode, the television signal of the TV signal processing unit 40 is directly applied to the analog switch 28 and is selected by the control signal of the microprocessor 18. It can be. That is, in the general television mode, the television signal of the TV signal processing unit 40 is output as a video signal through the analog switch 28 controlled by the control signal of the microprocessor 18, so that the user can watch general television broadcasting. will be.

When the video tape recorder is used, the analog switch 28 selects the VTR source 30 to which the video signal of the video tape recorder is applied by a control signal applied from the microprocessor 18. The video signal to be played can be viewed.

Meanwhile, the case of receiving satellite broadcasting is as follows. The satellite broadcast signal is input to a parabola antenna (7), converted into a 1st intermediate frequency signal by a LNB (Low Nois Block Converter: 8), and then applied to a satellite tuner (9), and in a satellite broadcast tuner (9). The 2nd intermediate frequency signal is applied to the 2nd intermediate frequency amplifier 10 and amplified and then applied to the image detector 11.

The video signal among the image signals applied to the image detector 11 is amplified by the image signal amplifier 12 and demodulated by the demodulator 13, and then is applied to the analog switch 27 and the vertical synchronization signal reproduction circuit 25. The audio signal of the image detector 11 is applied through the audio band pass filter 14 and the audio detector 15, and then the switching operation is controlled by the control signal of the microprocessor 18. ) Is applied.

At this time, since the user has already selected the satellite broadcasting reception mode using the transmitter 16, the microprocessor 18 sends a control signal to the analog switch 27 through the input and output ports 17 and demodulator 13 Allows satellite broadcast signals to be selected.

The satellite broadcast signal selected by the analog switch 27 is applied to the data extraction unit 20 to extract an encryption signal (that is, a scrambling signal) included in the vertical blanking period and the data extraction unit 20. The cryptographic signal extracted from is applied to the cryptographic reading and decoding unit 23 to be compared with the cryptographic signal applied by the user by operating the transmitter 16 through the microprocessor 18.

That is, when the user pays the money for satellite broadcasting and applies the assigned password, the password reading and decoding unit 23 reads the password input by the user and extracts the satellite broadcasting encryption signal extracted from the data extraction unit 20. Will be compared with

At this time, if the mutual signals coincide with each other, the cipher reading and decoding unit 23 sends a driving signal to the vertical synchronizing signal reproducing circuit 25 to provide the vertical synchronizing signal reproducing circuit 25. Accordingly, the vertical synchronizing signal reproducing circuit 25 reproduces the vertical synchronizing signal in which some of the original satellite broadcasting signals are lost, and applies the video signal of the perfect type to the analog switch 28.

That is, since the original satellite broadcast signal is applied as an encryption signal in which a part of the vertical synchronization signal disappears, it can be reproduced as an image signal only by regenerating the collapsed vertical synchronization signal. Therefore, the password included in the vertical blanking period of the satellite broadcast signal is extracted by the data extraction unit 20 and then applied to the encryption reading and decoding unit 23 so that the user pays money and decodes the received password. When the two ciphers match by comparing the two ciphers, the vertical synchronizing signal reproducing circuit 25 is driven to reproduce the missing vertical synchronizing signal of the satellite broadcasting signal.

As such, the video signal reproduced with the vertical synchronization signal is output from the analog switch 28 by the control signal of the microprocessor 18 so that the user can receive the satellite broadcast signal.

In addition, the satellite broadcast signal received through the analog switch 27 while receiving the satellite broadcast is selected, and the data is not extracted from the data extracting unit 20, so that the encryption reading and decoding unit 23 encrypts the satellite broadcasting signal. Since it is determined that the signal is not included, it is not necessary to reproduce the vertical synchronization signal.

Therefore, the satellite broadcast signal is output through the analog switch 28 which is switched by the control signal of the microprocessor 18 as it is.

Therefore, the user can watch an encrypted satellite broadcast signal or an unencrypted satellite broadcast signal, and in particular, the function of decrypting the encrypted satellite broadcast signal from the data extraction unit 20 and the encryption reading and decoding unit 23 is performed. It is to be replaced. In this case, when the encrypted satellite broadcast signal is selected, the microprocessor 18 "turns on" the encrypted satellite broadcasting reception pore diode (LED2) through the input and output ports 17 to inform the user.

The audio signal included in the encrypted satellite broadcast signal is applied to the digital audio decoding circuit 26 to demodulate the digital audio signal, and then to apply the stereo audio signal to the audio switch 29. Since it is switched by the microprocessor 18, the audio signal is output through the audio amplifier 31.

The audio signal of the video tape recorder and the audio signal of the television are applied to the audio switch 29 and output as an audio signal through the audio switch 29 whose switching operation is controlled by the microprocessor 18 according to the user's selection. Lose. As described above, the present invention installs a teletext TV tuner and a satellite broadcast receiver tuner in the color television, respectively, but the TV signal processor and the satellite broadcast signal processor use existing circuits used in the respective systems. The satellite broadcasting signal and the teletext signal are switched to perform signal encoding. In this case, the teletext signal decoding uses the conventional method, and the satellite broadcasting signal decoding uses the encryption signal included in the vertical blanking period of the encrypted signal. When the extracted encryption signal extracted by using the data extracting unit and the encryption signal input by the user is compared with each other, the vertical synchronization signal reproduction circuit is used to reproduce the collapsed vertical synchronization signal.

Therefore, the present invention has the advantage of convenience in using an integrated color television capable of receiving satellite broadcasts and teletext, and also reads and decodes the encrypted signal of the satellite broadcast signal after detecting the encrypted signal with the data extraction unit of the teletext signal processor. In case of matching with the password inputted by the user, the vertical synchronization signal regeneration circuit is driven to reproduce the collapsed vertical synchronization signal.

Claims (3)

In the analog switch 27 and the analog switch 27 for switching the teletext signal of the TV signal processor 40 and the satellite broadcast signal of the satellite broadcast signal processor 50 into the control signal of the microprocessor 18. A data extraction unit 20 for extracting data of the selected signal, an encryption reading decoding unit 23 for comparing the encryption signal of the satellite broadcast signal extracted from the data output unit 20 with the encryption input by the user, and A vertical synchronizing signal reproducing circuit 23 which reproduces a vertical synchronizing signal when the two signals coincide with the cipher reading and decoding unit 23, and a digital tele which processes the teletext signal extracted by the data extracting unit 20; Analog signal for switching the control signal of the microprocessor 18 to the signal applied from the text processor 21, the vertical synchronizing signal reproduction circuit 25 and the digital teletext processor 21 Value (28) and the teletext color TV built-in satellite broadcast receiver composed. 2. The color television according to claim 1, wherein the data extractor (20) is configured to extract a digital signal and an encryption signal included in the vertical blanking period of the teletext signal and the satellite broadcast signal. The vertical synchronizing signal reproducing circuit (25) according to claim 1, wherein the cipher reading and decoding section (23) reads the cipher signal of the satellite broadcasting signal extracted by the data extracting section (20) and reproduces the cipher signal input by the user. Color television with built-in teletext and satellite broadcast receivers configured to

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