KR950009666B1 - Program recognized circuit for data transmitting & receiving in vertieal retrace - Google Patents

Abstract

The apparatus comprises a transmitting part for reiterating and transmitting an original number assigned to each program data as the other program data of a predetermined bit during an n-th horizontal scan; and a receiving part for receiving a composite signal transmitted from the transmitting part, and extracting the program data of the predetermined bit.

Description

Program recognition circuit by data transmission and reception during vertical retrace period

1 is a waveform diagram of a synchronization signal during a vertical retrace period.

2 is a block diagram according to the present invention.

3 is an operational waveform diagram of FIG.

* Explanation of symbols for main parts of the drawings

10 matrix circuit 20 color subcarrier oscillator

30: modulator 40: synchronization signal generator

50: first horizontal synchronization signal counter 60: first clock generator

70: data generator 80: synthesizer

100: transmitter 200: receiver

110: sync signal separator 120: second horizontal motion signal counter

130: second clock generation unit 140: data extraction unit

150: key input unit 160: microcomputer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a program recognition circuit by data transmission and reception during a vertical retrace period. In particular, in a television broadcast transmitting / receiving apparatus, a predetermined data is transmitted and received during the vertical retrace period of a composite video signal to thereby accurately start and end a television broadcast program. It relates to a circuit to recognize.

Currently, multi-text broadcasting is widely used in television broadcasting, in which image information composed of texts or figures is superimposed on a television broadcasting signal in the form of a digital data signal, and the receiving side converts the image information into a television video signal and displays it on a television receiver. .

The text multicast data signal of the text multicast is normally transmitted in a vertical scanning period in a horizontal scanning period which is not used in the current broadcast.

That is, the character multicast data signal is superimposed on the horizontal scanning time T3 except for the horizontal scanning period T2 used as the vertical synchronous pulse train during the vertical retrace period T1 of 21 horizontal scanning periods as shown in FIG. At this time, the horizontal scan period in which the current broadcast station uses various test signal transmissions as transmissions can be excluded in the horizontal scan period T3. Dots (.) In FIG. 1 represent equalization pulses.

On the other hand, when recording a TV broadcast program using a recording device such as a video tape recorder (VTR) in general, if the preset start and end time of the pre-announced program is set in advance, the set start and end time In this case, recording starts automatically, and it ends after recording is completed.

Therefore, if the broadcast time of the program to be scheduled recording is changed or delayed due to advertising, there was a problem that can not accurately record the desired program.

Also, in the television, if the on / off time is reserved in accordance with the broadcast start or end time of the program to be watched, the TV is automatically turned on when the scheduled start and end time is reached, and the broadcast is turned off when the scheduled program broadcast ends. Therefore, there is a problem in that the broadcast of a program to be reserved for viewing is delayed due to a change in time or an advertisement, so that the desired program cannot be watched violently.

Accordingly, an object of the present invention is to transmit and receive a broadcast program by superimposing and transmitting the unique number data of a predetermined broadcast program on a composite video signal, and extracting the data on the receiving side to start and end the desired broadcast program. It is to provide a program recognition circuit that can be recognized.

The present invention for achieving the above object is a transmitting unit for superimposing and transmitting the unique number assigned to each program as program data in the n-th horizontal scanning period not used in current broadcasting during the vertical retrace period of the composite video signal, and the composite And a receiver for extracting and recognizing superimposed program data of an image signal.

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

FIG. 1 is a waveform diagram of a synchronization signal of vertical retracement period as described above.

2 is a block diagram according to the present invention, comprising: a transmitter 100 for superimposing a unique number assigned to each program in a n-th horizontal scanning period of a vertical retrace period of a composite video signal as program data of a predetermined bit; The receiver 200 is configured to input a composite video signal transmitted from the transmitter 100 to extract and recognize program data having a predetermined number of overlapping bits.

In the configuration of FIG. 2, the transmitting unit 100 inputs the color signals R, G, and B to output the luminance signal Y and the color difference signal RY, and oscillates and outputs the color subcarriers. A color subcarrier oscillator 20, and a modulator 30 for inputting the color difference signals RY and BY and the color subcarrier to modulate the color subcarriers by the color difference signals RY and BY to output a carrier color signal. A signal is generated by inputting a synchronization signal generator 40 and a synchronization signal of the synchronization signal generator 40 to count horizontal synchronization signals among the synchronization signals, and at the start of the nth horizontal scan period in the vertical retrace period. A first horizontal synchronizing signal counter 50 which is outputted and resets every vertical synchronizing signal, a first clock generating unit 80 which generates a predetermined clock signal and outputs a clock signal, and the data control signal A predetermined bit synchronized with the clock signal The data generator 70 outputs program data, and inputs and synthesizes the luminance signal Y, the carrier color signal, the synchronization signal, and the program data of a predetermined bit, so that the program data is stored in the nth horizontal scanning period of the vertical retrace period. Composing unit 80 for outputting a superimposed composite video signal.

Receiving unit 200 is a synchronization signal separating unit 110 for inputting the composite video signal transmitted from the transmitter 100 to output a horizontal synchronization signal and outputting a reset signal every vertical synchronization signal, and the synchronization A second horizontal synchronization signal counter that is counted by the reset signal and outputs a data extraction control signal at the start of the nth horizontal scanning period in the vertical retrace period and is reset by the reset signal; A second clock generator 130 generating a predetermined clock signal based on the clock generation control signal and outputting a clock signal, and extracting the composite video signal and the data output from the transmitter 100; Inputting a control signal and a clock signal to extract and extract program data of a predetermined bit superimposed on the composite video signal in synchronization with the second clock signal. An extraction unit 140, a key input unit 150 for outputting predetermined program data as a key input, and a clock generation control signal based on the data extraction control signal, and in synchronization with a clock signal, the data extraction unit 140 It is composed of a micro-computer (160) which reads the program data of a predetermined bit of and compares the program data set by the key input of the key input unit 150 to recognize a match and outputs a program recognition signal.

3 is an operation waveform diagram of FIG. 2, and a is a clock signal as an output of the first or second clock generators 60 and 130. FIG.

b shows that the program data of a predetermined bit is superimposed on the n-th line of the vertical retrace period of the composite video signal in synchronization with the first or second clock signal.

An operation example of FIG. 2 according to the present invention will now be described in detail with reference to FIG. 3 and an operational waveform diagram.

When color signals R, G, and B are input from the camera (not shown) to the matrix circuit 10, the matrix circuit 10 converts the color signals R, G, and B into luminance signals Y and color difference. The signals are converted into signals RY and BY and output. The modulator 30 modulates the color subcarriers (3.58 MHz in the NTSC system) output from the color carrier oscillator 20 by the color difference signals R-Y and B-Y, and outputs a carrier color signal.

In addition, the synchronization signal generator 40 generates and outputs a synchronization signal, and the first horizontal synchronization signal counter 50 inputs and counts a horizontal synchronization signal among the synchronization signals of the synchronization signal generator 40. At this time, the first horizontal synchronization signal counter 50 counts the horizontal synchronization signal and outputs a data control signal at the start of the nth horizontal scanning period in which the program data in the vertical retrace period is to be superimposed. Set to reset.

Meanwhile, the data generator 70 sequentially outputs program data of a predetermined bit synchronized with the clock signal shown in FIG. 3a output from the first clock generator 60 by the data control signal. At this time, the predetermined bit of program data is program data of a predetermined number unique to a program preset according to a broadcast program.

When the program data is n-bit data consisting of serial, the total number of programs that can be specified is 2 ⁿ . In addition, the broadcasting station provides the viewer with a unique number of each program when the program is guided.

Therefore, the synthesis unit 80 inputs and synthesizes the luminance signal Y, the carrier color signal, the synchronization signal, and the program data, thereby superimposing the program data in the nth horizontal scanning period in the vertical retrace period as shown in FIG. Output composite video signal. At this time, P1 of FIG. 3b is the nth horizontal synchronization signal.

The composite video signal is transmitted through a predetermined transmission circuit.

Meanwhile, the receiver 200 inputs the composite video signal output from the transmitter 100 and transmits the separated video signal by separating the horizontal synchronous signal from the synchronous signal separator 110, and the second horizontal synchronous signal counter 120 is horizontal. Count the synchronization signal. At this time, the second horizontal synchronization signal counter 120 counts the horizontal synchronization signal to output a data extraction control signal at the start of the nth horizontal scanning period in which program data in the vertical retrace period is superimposed and reset by a reset signal. Set to set. In addition, the sync signal separator 110 is configured to output a reset signal for every vertical sync signal.

In addition, a data extraction control signal is output from the second horizontal synchronization signal counter 120, and the microcomputer 160 inputs the data extraction control signal to output a clock generation control signal, and the second clock generator 130 Generate a clock signal during the nth horizontal scanning period. In this case, the clock signal of the second clock generator 130 is the same as that of FIG. 3a, and the frequency of the clock signal output from the second clock generator 60 of the transmitter 100 is the same.

In addition, the data extracting unit 140 synchronizes the clock signal output from the second clock generating unit 130 with the clock signal output from the second clock generation unit 130 by the data extraction control signal, and the predetermined image of the predetermined bit superimposed on the composite video signal as shown in FIG. 3b. Extract and extract program data.

Therefore, the microcomputer 160 reads program data of a predetermined bit in synchronization with the clock signal of the second clock generator 110 from the input time of the data extraction control signal.

Therefore, if the program data according to the unique number of the desired broadcast program is set in advance in the microcomputer 160 through the key input unit 150, the microcomputer 160 reads a predetermined bit of the program from the data extraction unit 140. It recognizes whether or not the data match and outputs a program recognition signal if it matches.

Therefore, by inputting the program recognition signal from the VTR or the television, it is possible to start recording or to turn on the television at the exact time when the desired broadcast program starts. At this time, the method of setting the data by the microcomputer 160 through the key input unit 150 is the same as the method of reserving the time in a conventional VTR or a television.

If the microcomputer 160 does not output the program recognition signal when undesired data extracted when the next broadcast program starts after the desired broadcast program ends, the microcomputer 160 does not output a program recognition signal. TV off is enabled.

The present invention can also be used as an alarm function for notifying the start and end of a predetermined program, and the alarm can be configured as an alarm sound or a voice.

As described above, the present invention provides a transmission / reception apparatus for transmitting and receiving a broadcast program, wherein a predetermined program data is superimposed on a composite video signal and transmitted, and the receiving side extracts and recognizes the data, and the start and end time of the desired broadcast program is recognized. Can be correctly recognized.

Claims (3)

A broadcast program transmitting and receiving apparatus comprising: a transmitter (100) for superimposing and transmitting a unique number assigned to each program as program data of a predetermined bit in an nth horizontal scanning period of a vertical retrace period of a composite video signal, and the transmitter (100) And a receiving unit (200) for inputting a composite video signal transmitted from the receiver and extracting and recognizing superimposed predetermined bits of program data. The display apparatus of claim 1, wherein the transmitter 100 inputs the color signals R, G, and B to generate a matrix circuit 10 for outputting the luminance signal Y and the color difference signals RY, BY, and a color subcarrier. A color subcarrier oscillator 20 for outputting, a modulator 30 for inputting the color difference signals RY and BY and a color carrier to modulate the color subcarriers by the color difference signals RY and BY to output a carrier color signal; Inputs a synchronization signal of the synchronization signal generator 40 and a synchronization signal of the synchronization signal generator 40 to count a horizontal synchronization signal among the synchronization signals, and starts the data at the start of the nth horizontal scanning period in the vertical retrace period. A first horizontal synchronizing signal counter 50 which outputs a control signal and is reset for each vertical synchronizing signal, a first clock generator 60 which generates a predetermined clock signal and outputs a clock signal, and the data control signal Program of a predetermined bit synchronized with the clock signal by The data generator 70 outputs RAM data, the luminance signal Y, the carrier color signal, the synchronization signal, and program data of a predetermined bit are inputted and synthesized to overlap the program data in the nth horizontal scanning period during the vertical retrace period. And a synthesizing unit (80) for outputting the composite video signal. The synchronization signal separation unit of claim 1, wherein the reception unit 200 inputs a composite image signal output from the transmission unit 100 to transmit a horizontal synchronization signal, and outputs a reset signal for every vertical synchronization signal. 110 and the horizontal synchronization signal outputted from the synchronization signal separation unit 110, and outputs a data extraction control signal at the start of the nth horizontal scanning period of the vertical retrace period and is reset by the reset signal. The second horizontal synchronization signal counter 120, a second clock generator 130 for generating a predetermined clock signal according to the clock generation control signal, and outputting a clock signal, and a complex output from the transmitter 100 and transmitted A video signal and the data extraction control signal and a clock signal are input to extract program data of a predetermined bit superimposed on the composite video signal in synchronization with the second clock signal. And a data extraction unit 140 for extracting the data, a key input unit 150 for outputting predetermined program data as a key input, and a clock generation control signal based on the data extraction control signal, and extracting the data in synchronization with a clock signal. Reads the program data of the predetermined bit of the unit 140, compares with the program data set by the key input of the key input unit 150 to recognize the match and output a program recognition signal to the microcomputer (Micro-Computer) 160 And a program recognition circuit for transmitting and receiving data during the vertical retrace period.

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