KR960004411Y1 - Phase locking circuit for vpt broadcast receiver - Google Patents

Abstract

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Description

Phase Locking Circuit of VPT Broadcasting Receiver

1 is a block diagram of the present invention.

2a to j is a signal waveform diagram of each circuit portion of the present invention.

* Explanation of symbols for main parts of the drawings

1 tuner and intermediate frequency amplifier 2 data slicer

3: VPT control unit 4: data processor

5: RAM 6: encoder

7, 13: clamp circuit part 8, 14: buffer

9: video switching unit 10, 11: inverter

12: luminance signal processor 15: color signal processor

16: switching unit 17: signal inverting unit

SW1, SW2: switch

The present invention relates to a phase locked circuit of a VPT (Video Programmed Teletext) broadcasting receiver, and in particular to an automatic phase control (abbreviated as APC) circuit adapted to receive another subtitle broadcast on a tuner reception screen. It relates to a phase locked circuit used.

A conventional VPT (teletext) broadcast receiver includes a tuner and an intermediate frequency amplifier stage 1 for receiving a radio wave from an antenna and outputting a mixed signal in the circuit configuration shown in FIG. A data slicer 2 which receives the output and extracts VPT data, a VPT controller 3 which controls the operation of the data processor 4, and a data processor 4 which selects and determines the output data of the data slicer 2; ), A RAM (5) for storing the data processed by the data processor (4), and a crystal oscillator (X-) that receives the R, G, B outputs of the data processor (4) and generates image signals and data lines. An encoder 6 to which TALOSC) has been added, a clamp circuit portion 7 for keeping the synchronization signal level of the completed teletext data signal constant, and a teletext signal adjusted by the clamp circuit portion 7 as appropriate. Buffer (8 ), A video switching unit 9 for switching by an amplification signal through the buffer 8, a luminance signal processing unit 12 for processing a luminance signal, a color signal processing unit 15 for processing a color signal, and the tuner And a switching unit 16 for switching and controlling the received signal from the intermediate frequency amplifier stage 1 to the TV receiver. The operation relationship thereof is as follows.

When the radio wave received from the antenna is applied to the data slicer 2 as a mixed signal through the tuner and the intermediate frequency amplifier stage 1, the data slicer 2 extracts the VPT data from the mixed signal.

The VPT data is applied to the data processor 4 controlled by the VPT control unit 3, and the data processor 4 applies R, G, and B color signals to the encoder 6, and at the same time, the VPT outputs and switches the signals. It is applied to the switch SW1 control terminal in the section 16.

On the other hand, the R, G, and B color signals are input from the data processor 4 to generate an image signal and a data line in the encoder 6. At this time, a separate crystal oscillator is installed in the encoder 6 to generate color subcarriers. Doing.

In addition, data signals and mixed synchronization signals are received from the data processor 4 to form data lines.

The teletext data signal, which is then completed via the encoder 6, is kept constant through the clamp circuit 7 and then amplified appropriately via the buffer 8 and then applied to the video switching section 9.

At this time, the video switching unit 9 receives the tuner reception signal through the tuner and the intermediate frequency amplifier stage 1 and simultaneously outputs a signal to the switching unit 16.

The received signal is applied to the switching unit 16 and controlled, and then transmitted to the TV receiver.

However, such a conventional apparatus actually includes a crystal oscillator (X) having an APC circuit and a 4.43 MHz oscillation frequency in the luminance signal and color signal processor 12 (15), and adds a crystal oscillator to the encoder 6 separately. In the closed caption broadcasting, phase control is not properly performed, and phase fixing such as color fading is not performed.

The present invention has been made in view of the above-mentioned problems, and inverts the signal from the siscon micom and applies it to the color signal processing unit, and simultaneously sends a crystal oscillator output in the color signal processing unit to the VPT encoder unit, thereby providing a separate crystal oscillator to the encoder. The purpose of the present invention is to provide a more stable VPT broadcast screen so that it does not need to be installed. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

According to the present invention, a tuner and an intermediate frequency amplifier stage 1 for receiving a radio wave from an antenna and outputting a mixed signal as shown in FIG. 1, and a data slicer for outputting VPT data by receiving the output of the tuner and intermediate frequency amplifier stage 1; (2), a VPT controller (3) for controlling the operation of the data processor (4), a data processor (4) for selecting and determining the output data of the data slicer (2), and the data processor (4) RAM 5 for storing the processed data, encoder 6 for receiving the R, G, and B outputs of the data processor 4 to generate an image signal and a data line, and a synchronization signal of the completed teletext data signal. Switching operation by a clamp circuit portion 7 for keeping the level constant, a buffer 8 appropriately amplifying the teletext signal adjusted by the clamp circuit portion 7, and an amplified signal through the buffer 8; Video Switching Unit (9) And a luminance signal processor 12 for processing the luminance signal, a color signal processor 15 for processing the color signal, and a switching unit 16 for switching and controlling the received signals from the tuner and the intermediate frequency amplifier stage 1 to the TV receiver. In the VPT broadcast receiving device comprising: a signal inverting unit (17) for inverting a high signal from a microcomputer of the scones to the color signal processing unit (15), and an oscillating output of the color signal processing unit (15). 6) a signal line (G) for avoiding laying a separate crystal oscillator, a clamp circuit section (13) for maintaining a constant level of a teletext line signal and a synchronization signal from the luminance signal processing section (12), And a buffer 14 for amplifying the video signal adjusted by the clamp circuit 13 and outputting a switching control signal to the switching unit 16.

Referring to the effect of the present invention configured as described with reference to Figure 2a to j as follows.

First, the signal received through the antenna is modulated, demodulated through the tuner and the intermediate frequency amplifier stage 2, and input to the data slicer 2 through the mixed second wave 2a signal and line A.

That is, as shown in FIG. 2A, the teletext signal is broadcasted on the 23rd line, as indicated by the dotted circle, of 17 usable lines in the field blanking section 25 lines.

When the teletext signal as shown in FIG. 2b is input to the data slicer 2, the color bar signal is removed, and the mixed synchronization signal of the pure teletext line is applied to the data processor 4 through the line B, and the signal The processor 4 is recognized as a 'high' or 'low' signal depending on the presence or absence of data, and is stored in the RAM 5 after being addressed.

On the other hand, the mixed video signal applied to the high signal terminal H of the switch SW2 in the switching unit 16 through the line D is switched after receiving the high tuner signal applied from the illustrated scone when receiving the tuner. Since the signal is transmitted to the luminance signal processing unit 12 and the color signal processing unit 15 through the line E, the signal of the luminance signal processing unit 12 is constantly adjusted by the internal AGC circuit and then the clamp circuit unit 13 It is applied to the teletex line signal and the synchronization signal level uniformly.

In addition, the color signal processing unit 15, which is a chroma processing system, receives a color signal as shown in FIG. 2h and gates only a color burst as shown in FIG. 2j as a burst gate pulse like as shown in FIG. 2i, at the reference frequency of the automatic phase control circuit in the color signal processing unit 15. It operates to control the Vco voltage constantly, and oscillates at the oscillation frequency of the color signal processor 15 by the Vco voltage, and the oscillation frequency is transmitted to the encoder 6.

Here, the conventional APC operation of the color signal processing unit 15 is performed only when a low signal is input through the inverter 11, and does not perform the APC operation at the time of VPT reception. (Video to Todeo High: Video signal is played back by the VCR head and transmitted to the TV. Therefore, it is low when the tuner video is received.) After being inverted and output to high-high, it is outputted to low-low through the inverter 11, and the color signal processing unit 15 recognizes APC as a state and executes the operation of the APC circuit by the control signal (low). .

Subsequently, the encoder 6 receives the R, G, and B color signals from the data processor 4, and at the same time, retrieves the data stored in the RAM 5 and responds to the synchronization signal of the signal waveform shown in FIG. 2C input through the line C. By forming a data line as shown in 2d and receiving a 4.43 MHz oscillation frequency accurately fixed by the operation of the APC circuit as shown in FIG. 2g, a composite video signal is generated and applied to the clamp circuit unit 7.

Therefore, in the clamp circuit unit 7, the data line signal is maintained at a constant level, applied to the buffer 8, amplified appropriately, and applied to the switch SW1 in the video switching unit 9, and clamped from the luminance signal processing unit 12. A signal in which the synchronization signal level of the transmission signal is clamped constantly through the circuit unit 13 is applied to the switch SW1 in the switching unit 16 via the buffer 14.

On the other hand, the VPT control section 3 applies a teletext control pulse as shown in (e) of FIG. 2 to the switching section 9. In the period in which the control pulse is in the `` high '' state, the dashed line in FIG. As shown, the teletext line signal is switched and applied to the switch SW1 in the switching unit 16.

In addition, during the period in which the control pulse is in the `` low '' state, the color bars of the tuner receiving video line are also applied to the switch SW1 in the switching unit 16.

In this case, when the tuner video line is transmitted during the low-low period, the mixed color signal of the VPT control unit 3 is matched with the reference color burst of the second 2a as a reference signal to output a mixed video signal during subtitle broadcasting. Since it is difficult to generate a composite image signal using the crystal oscillator (not shown) of the encoder 6 itself, which has not undergone the APC operation of the color signal processor 15, to accurately match the reference color burst, as shown in FIG. Assuming that the signal a) is a reference color carrier of 4.43 MHz, the signal generation color carrier of the signal (b) is not fixed correctly.

On the other hand, if the VPT on (high) signal is applied to the switch SW1 control signal in the switching unit 16 by the data processor 4, the HH of the switch SW1 is changed according to the switch operation switched by the high signal. The VPT signal applied to the terminal is sent to the TV receiver.

Referring to the operation relationship of the switching unit 16, the switch SW2 is applied to the switch SW2 from the microcomputer in tuner mode in the tuner mode, so that the switch SW2 is switched to the 'H' side, so that it is applied through the line D. The tuner signal is supplied to the luminance signal processing unit 12 and the color signal processing unit 15, and only the tuner video signal is outputted when it is not a VPT on (high) signal through the clamp circuit unit 13 and the buffer 14, When the control voltage of the switch SW2 in the switching unit 16 is low, the line video signal is input and then output through the above process.

As described above, according to the present invention, since the teletext broadcast receiving apparatus can watch a more stable VPT broadcast screen without installing a separate crystal oscillator on the VPT encoder, the reliability of the product can be improved.

Claims (1)

A tuner and an intermediate frequency amplifier stage 1 for receiving a radio wave from an antenna and outputting a mixed signal, a data slicer 2 for extracting VPT data by receiving the output of the tuner and intermediate frequency amplifier stage 1, and a data processor 4 VPT control unit (3) for controlling the operation of the control unit, a data processor (4) for selecting and determining the output data of the data slicer (2), and the R, G, B outputs of the data processor (4) A VPT broadcast receiving device including an encoder (6) for generating a video signal and a data line, the VPT broadcast receiving device having an APC function for matching a phase of an input color subcarrier signal with an oscillation signal of an oscillator (X). H ＂signal is input as an APC operation enable signal, and the phase of the video signal color carrier of the tuner and the intermediate frequency amplifier stage 1 and the oscillator (X) output are matched to supply this phase matched signal to the encoder 6. Color signal Phase lock circuit of the VPT broadcast receiver comprising the portion (15).