KR20000034341A - Apparatus of hd and ntsc video signals for hdtv - Google Patents

Abstract

PURPOSE: An apparatus for sharing HD and NTSC video signals of HDTV is provided so that the complexity of an input plate can be removed and the manufacturing cost can be reduced by making a luminance signal input terminal of HDTV and a video signal input terminal of NTSC be shared. CONSTITUTION: An apparatus for sharing HD and NTSC video signals of HDTV includes an input terminal(100) for receiving luminance signals of HDTV or video signals of NTSC. A synchronous separating unit(400) separates synchronizing signals mixed among the luminance signals of HDTV or video signals of NTSC. A switch(150) changes the output pathes of HDTV signals and NTSC signals being outputted from the input terminal(100) according to the control signal of a microprocessor(550). If video signals of NTSC are inputted through the input terminal(100), a scan converter(200) transforms the video signals interlace-scanned, outputting from the input terminal(100) into sequential-scanning and then double-scanning is performed on the video signals. A video amplifier(300) amplifies signals of HDTV or video signals of NTSC and outputs the signals to a CRT(350).

Description

HD and NTSC video signal sharing processor in HDTV

The present invention relates to a HD and NTSC video signal sharing processing apparatus in HDTV, HD and NTSC video signal sharing processing apparatus in HDTV that can be processed by sharing the input terminal of the HDTV luminance signal and NTSC video signal (A joint control apparatus of HD and NTSC for HDTV).

In general, HDTV (high definition TV) is a video system developed to meet the demands of new media, and it can not only display high definition images in a high quality on a large screen, but also has a high level of visual acuity, force, etc., far exceeding the current TV. It is the next generation TV system that can exhibit psychological effects.

HDTV has a scanning line of 1125FKDLS and an aspect ratio of 16: 9, which is 25% wider than current TVs, and the number of pixels per frame is approximately five times that of a detailed image.

The video signal format of the HDTV is composed of a Y (luminance signal) signal and a color difference signal (P _B , P _R ), and the synchronization signal is composed of a three-level synchronization signal of positive polarity.

In comparison with the NTSC system and the frequency band, the NTSC system transmits by multiplexing the frequency band in order to be included in the 6MHz channel band. However, in the HDTV system, the difference in the luminance signal is 5 times or more (22MHz) and the channel band is 27MHz. To solve this problem, the TCI method is used to time-division multiplex the luminance signal and the color difference signal.

On the rear panel of the HDTV as described above, a jack plate of an external video input terminal as shown in FIG. 1 is provided.

That is, the portion a shown is provided with three input terminals for inputting the luminance signal Y and the color difference signals P _B and P _R of the HDTV. The portion b shown is an NTSC video signal V and Three input terminals for inputting audio signals L and R are provided separately.

However, since the input terminal of the HDTV and the input terminal of the NTSC are provided as described above, the input terminal plate is complicated, and the luminance signal of the HDTV having similar characteristics and the input signal of the NTSC video signal are separately provided, thereby reducing the manufacturing cost. There is a problem with ascension.

An object of the present invention is to solve the above problems, an object of the present invention is to share the brightness signal input terminal of the HDTV and the video signal input terminal of NTSC, thereby reducing the complexity of the input plate and reduce the manufacturing cost It is to provide HD and NTSC video signal sharing processor in HDTV.

As a technical idea for achieving the object of the present invention as described above, input means for receiving an HDTV luminance signal or NTSC video signal through one terminal, mixed with the HDTV luminance signal or NTSC video signal output through the input means A synchronous separation means for separating the synchronized signal,

Counting means for receiving the horizontal synchronous signal separated by the synchronous separation means to count the horizontal synchronous number included in one vertical section to form a binary number of a certain number of bits, and then output a bit value of a certain number of digits, in the counting means A logic combining means for logically outputting the output bit value, control means for applying a control signal to the TM switching means according to the output value of the logic combining means, and an NTSC video signal output from the input means according to the control signal of the control means. After converting to sequential scanning, an invention comprising a scan converting means for double scanning and an RGB processing means for receiving and processing an NTSC signal passed through the scan converting means or an HDTV signal passed through the switching means is presented.

1 is a view showing a state in which the input jacks of the conventional HD and NTSC video signals are separated.

Figure 2 is a block diagram showing a HD and NTSC video signal sharing processing apparatus in HDTV according to an embodiment of the present invention.

3 is a view showing a logical combination of FIG.

4 is an exemplary view showing an input terminal of FIG.

<Description of the code | symbol about the principal part of drawing>

100: antenna 150: tuner

200: IF detector 250: A / D converter

300: filter 350: channel compensator

400: error correction 450: decoding unit

500: RGB separation unit 550: RGB process

600: OSD process 650: OSD output control unit

651: OR gate 652: first switch

653: second switch 700: microcomputer

750: remote controller 750a: normal mode key

750b: Translucent mode key 800: Video amplifier

850: CRT

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention applied to HDTV.

2 is a block diagram illustrating an apparatus for sharing HD and NTSC video signals in an HDTV according to an exemplary embodiment of the present invention.

3 is a diagram illustrating a logical combination of FIG. 2.

4 is an exemplary view showing a configuration of an input terminal according to an embodiment of the present invention.

First, referring to FIG. 2, the input terminal 100 for receiving the luminance signal Y of the HDTV or the video signal V of the NTSC, and the luminance signal of the HDTV or the NTSC video outputted from the input terminal 100 are described. A sync separator 400 for separating the sync signal mixed in the signal;

After counting the number of the horizontal synchronization signal (H) output from the synchronous separator 400 within one vertical section, and receives the output of the counter 450 and the output of the counter 450 sequentially in binary A logic combination unit 500 for generating a logic output, a microcomputer 550 for applying a control signal to a switch 150 to be described later according to an output result of the logic combination unit 500,

A switch 150 for changing the output paths of the HDTV signal and the NTSC signal output from the input terminal 100 according to the control signal of the microcomputer 550, and the interlaced-scanned NTSC video signal output from the switch 150. After converting into a sequential scan, the scan converter 200 for double scanning,

An RGB process 250 for processing the HDTV signal output from the switch 150 or the converted NTSC video signal output from the scan converter 200, and an HDTV signal or NTSC video signal output from the RGB process 250 And a video amplifier 300 to amplify and process the output to the CRT (350).

Hereinafter, the operation according to the present invention configured as described above are as follows.

First, as shown in FIG. 4, when the input terminal 100 is configured, an HDTV luminance signal or an NTSC video signal is input through a Y / V input terminal.

The two signals input through the input terminal 100 are output to the switch 150, and are also output to the synchronous separator 400 connected therebetween, and the synchronous separator 400 is the luminance signal of the HDTV or NTSC. The horizontal synchronizing signal H and the vertical synchronizing signal V mixed in the video signal are separated, respectively, and the horizontal synchronizing signal is output to the input terminal (not shown) of the counter 450 connected to the rear stage, while the vertical synchronizing signal is output. Is output to the reset terminal of the counter 450.

The counter 450 receiving the horizontal synchronization signal through the input terminal is, for example, a 10-bit binary counter, which counts the number of horizontal synchronization signals included in one vertical section, and thus has a predetermined number of digits, for example, the third and The bit value corresponding to the ninth is outputted to the logical combination unit 500 connected to the rear stage.

That is, in the case of NTSC, the even field (262 lines) is 100000110 and the odd field (263 lines) is 100000111. The ninth bit value is equal to 1 each.

On the other hand, the counting result of the horizontal synchronization signal output from the synchronization separating unit 400 is, in case of HDTV, the even field (562 lines) is 1000110010, the odd field (563 lines) is 1000110011, and The ninth bit value is equal to zero, respectively.

Therefore, when 1, which is a third and ninth bit value, is output from the counter 450, for example, as shown in FIG. 3, the logical combination unit 500 including an and gate is 1 and the microcomputer 550 receiving the input applies a control signal to the switch 150 so that the NTSC video signal output from the input terminal 100 is input to the scan converter 200.

The scan converter 200 receiving the NTSC video signal converts the video signal formed by interlaced scanning into sequential scanning, and then performs double scanning because the horizontal frequency of the NTSC video signal is 15.734 kHz, Since the horizontal frequency of the HDTV signal is 33.75 kHz, in order to make one mode in the deflection mode, after converting the NTSC video signal formed by interlaced scanning into sequential scanning, the horizontal frequency is brought closer to the horizontal frequency of the HDTV signal. For that.

In other words, if the horizontal frequency of the NTSC video signal is double-scanned, it becomes 31.468 kHz and approaches the horizontal frequency of the HDTV signal.

Accordingly, the NTSC video signal passed through the scan converter 200 is output to the RGB process 250, and after the image processing process of the RGB process 250, the CRT through amplification and processing of the video amplifier 300. And displayed at 350.

On the other hand, when the third and ninth bit values 0 are output from the counter 450, for example, as shown in FIG. 3, the logic combination unit 500 including an and gate may be used. The microcomputer 550 that receives the input signal 0 outputs a control signal to the switch 150 so that the HDTV signal output from the input terminal 100 is output to the RGB process 250.

Therefore, the RGB process 250 processes the input HDTV luminance signal and the color difference signal to produce an RGB color signal, and then outputs the RGB color signal to the video amplifier 300. The video amplifier 300 amplifies and processes the RGB color signal to produce a CRT signal. Output to 350.

As described above, by processing the luminance signal of the HDTV and the NTSC video signal to be shared, the complexity of the input plate can be eliminated.

As described above, the present invention includes an input terminal having one input terminal in order to process the input terminal of the NTSC video signal and the input terminal of the HDTV luminance signal, and the HD luminance signal or the NTSC video signal is connected through the input terminal. In case of input, after separating the horizontal synchronous signal, the horizontal synchronous number included in one vertical section is counted so that a bit value for distinguishing HD and NTSC is outputted, and the NTSC video signal is input according to the output result. When the HDTV signal is input, the video is processed immediately, thereby reducing the complexity of the input plate and reducing the manufacturing cost.

Claims (2)

Input means for receiving an HDTV luminance signal or an NTSC video signal through a single terminal; A synchronization separating means for separating the synchronization signal mixed with the HDTV luminance signal or the NTSC video signal output through the input means; Counting means for receiving the horizontal synchronization signal separated by the synchronization separating means and counting the horizontal synchronization number included in one vertical section to form a binary number having a predetermined number of bits, and then outputting a predetermined number of bit values; Logical combining means for logically outputting the bit value output from the counting means; Control means for applying a control signal to the TM switching means in accordance with the output value of the logical combining means; Scan converting means for converting the NTSC video signal output from the input means into a sequential scan according to the control signal of the control means, and then double scanning And an RGB processing means for receiving and processing an NTSC signal passed through the scan converting means or an HDTV signal passed through the switching means. The method of claim 1, wherein the counting means counts the horizontal synchronization number included in one vertical section of the HDTV signal or the NTSC signal by dividing it into an even field and an odd field, respectively, and then configures a binary number having a constant number of bits. Or in the NTSC signal, the bit value of the same digits having the same bit value and different bit values are output by comparing the HDTV signal and the NTSC signal.