KR940000466B1 - Data sorting method and circuit - Google Patents

Abstract

The data arranging circuit of VTR or TV comprises; a synchronizing signal divider for dividing the horizontal synchronizing signal to receive the composite image signal; horizontal PLL generating the frequency locked in the horizontal synchronizing signal; A/D converter for generating the covered digital composite image signal the sampling frequency generated from the horizontal PLL; a burst divider for dividing the color burst signal to receive the composite signal; a burst PLL for generating the sampling frequency locked at the color burst signal; and line memory for memoring the digital composite image signal by the sampling frequency generated from the horizontal PLL and receiving the sampling frequency generated from the burst PLL.

Description

Data Sorting Method and Circuit

1 is a circuit diagram according to the present invention.

2 is a waveform diagram of operating parts of FIG.

* Explanation of symbols for main parts of the drawings

10: synchronous separator 20: horizontal PLL

30: A / D converter 40: Burst separator

50: burst PLL 60: line memory

The present invention relates to a data sorting method and a circuit for preventing the loss of teletext data by using a time base corretor (TBC) in an image processing system having a caption function of teletext broadcasting. will be.

In general, in a TV or VTR having a caption function of a character multicasting, the character multicasting data is decoded in a specific horizontal synchronization period of the vertical retrace period. At this time, in order to take the digital data, there is a reference clock immediately before the data, and based on this, the data is read and then read. However, in the case of VTR, it is not possible to maintain accurate horizontal frequency due to a mechanical structure problem during play, and the horizontal frequency becomes more distorted during fast foward and still.

Therefore, as the horizontal frequency is shifted, the clock and data for the character multicasting broadcasted therein also output a signal far from the signal having the correct reference frequency. As a result, when the VTR signal is decoded by a TV receiver, the digital clock and the data are not accurate, and thus there is a problem that the subtitles are not displayed because the data is lost even though there is a real character multicast signal.

Accordingly, an object of the present invention is to decode the data by recording the data with the clock locked to the horizontal frequency and reading the data with the clock locked to the color burst when the horizontal frequency is misaligned. The present invention provides a method and circuit for sorting data.

Another object of the present invention is to provide a data sorting method and a circuit capable of preventing the loss of data for character multicasting by aligning horizontal frequencies.

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

1 is a circuit diagram according to an embodiment of the present invention, in which a synchronous separator 10 for separating a horizontal synchronous signal by inputting a composite video signal and a horizontal synchronous signal separated by the synchronous separator 10 are input to a horizontal synchronous signal A horizontal PLL 20 for generating a locked frequency, an A / D converter 30 for inputting a composite video signal and converting and outputting the digital composite video signal by the sampling frequency generated in the horizontal PLL 20; A burst separator 40 for separating a color burst signal by inputting an image signal, and a sampling frequency locked to the color burst signal by inputting the separated color burst signal to the burst separator 40 The burst PLL 50 and the composite video signal digitally converted by the A / D converter 30 are inputted and recorded for 1H by the sampling frequency generated by the horizontal PLL 20, and the burst PLL 50 is input by the burst PLL 50. Occur And a line memory 60 for reading out and outputting the composite video signal recorded at the sampling frequency.

FIG. 2 is an operational waveform diagram of each part shown in FIG. 1, (2a) is a composite video signal waveform diagram into which character multicast data is inserted, (2b) is a timing diagram of a sampling frequency combined with a horizontal synchronization signal, and Is the output waveform diagram of the line memory, and (2d) is the timing diagram of the sampling frequency locked to the color burst signal.

Based on the above configuration, an embodiment of the present invention will be described in detail with reference to 1-2.

The sync separator 10 for inputting a composite video signal as shown in FIG. 2A (2a) input through the input terminal P1 separates and outputs a horizontal sync signal. The horizontal PLL 20 which inputs the horizontal synchronization signal separated by the synchronization separation unit 10 generates and outputs a sampling frequency locked to the horizontal synchronization signal as shown in FIG. The A / D converter 30, which records the composite video signal input through the input terminal P1, converts and outputs the digital composite video signal by the sampling frequency locked to the horizontal synchronization signal in the horizontal PLL 20. In addition, the burst separator 40 for inputting the composite video signal as shown in FIG. 2A (2a) input through the input terminal P1 separates and outputs the color burst signal.

The burst PLL 50, which inputs the color burst signal separated by the burst separator 40, generates and outputs a sampling frequency synchronized with the color burst signal. At this time, the composite video signal digitally converted by the A / D converter 30 is recorded in the line memory 60 by the sampling frequency generated by the horizontal PLL 20.

이라면 제2도 (2b)와 같은 n개의 샘플링 포인트가 한 수평 기간에 존재한다.if

If n, n sampling points as shown in Fig. 2 (b) exist in one horizontal period.

If the period a is a normal section, the section b has a short period, and the section c has a long period, there are always n sampling frequencies locked to the horizontal synchronization signal. However, when reading and outputting the line memory 60, the composite image signal having a stable period is output as shown in FIG. 2C by using a sampling frequency having a constant sampling point of the burst PLL 50.

Therefore, in FIG. 2, the frequency misalignment of sections b and c is also outputted to the character multicast decoder such that the frequencies are aligned like the sections e and f, thereby preventing the loss of the text multicast data.

As described above, when the horizontal frequency is misaligned, the sampling frequency locked to the horizontal synchronous signal is recorded and then read using the locked sampling frequency to the color burst signal to align the misaligned horizontal frequency so that the data or video data for character multicasting is fixed. By converting to, there is an advantage that accurate decoding can be performed by preventing the loss of the character multicast data.

Claims (2)

A data alignment circuit of a video system having a character multicasting function, comprising: a synchronous separator 10 for separating a horizontal synchronous signal by inputting a composite video signal, and a horizontal synchronous signal separated by the synchronous separator 10; A / D converter which converts and outputs a digital PLL signal to a horizontal PLL 20 that inputs a frequency locked to a horizontal synchronous signal and converts and outputs a composite video signal by a sampling frequency generated by the horizontal PLL 20. 30, a burst separator 40 for separating the color burst signal by inputting a composite video signal, and a sampling frequency locked to the color burst signal by inputting the color burst signal separated by the burst separator 40; The burst PLL 50 generated and the composite image signal digitally converted by the A / D converter 30 are inputted and recorded for 1H period by the sampling frequency generated by the horizontal PLL 20. Data alignment circuit characterized by consisting of a line memory 60 which leads to the output by the sampling frequency generated by the burst PLL (50). A data sorting method of a video system having a teletext broadcasting function, the method comprising: separating a horizontal synchronization signal from a composite video signal to generate a sampling frequency locked to the horizontal synchronization signal; and performing a color burst signal from the composite video signal. A second process of separating and generating a sampling frequency locked to a color burst signal, a third process of converting an analog composite video signal into a digital composite video signal by the sampling frequency generated in the first process, and the third process A fourth process of recording the composite image signal converted in the process by the sampling frequency generated in the first process, and reading the composite image signal recorded in the fourth process by the sampling frequency generated in the second process And a fifth process of outputting the sorted data.

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