KR100254408B1 - Video processing circuit for hdtv - Google Patents

Abstract

PURPOSE: A circuit for processing a video of a high-definition television is provided to adjust the size of a screen displayed to a video display unit by automatically detecting a signal, and by adjusting a vertical component of the signal in case that an NTSC signal for a cinemascope is inputted. CONSTITUTION: An input terminal(35) which inputs a synchronous signal is connected to the first input terminal of a signal detection unit(60). An input terminal(5) which inputs an NTSC signal is connected to the first input terminal of a signal processing unit(10) and the second input terminal of the signal processing unit(60). The second input terminal of the signal processing unit(10) is connected to an external signal input terminal(15). The first input terminal of the signal processing unit(10) is connected to the first input terminal of a mixing unit(20) and the first switching unit(50). An output terminal of the mixing unit(20) is connected to the second input terminal of the first switching unit(50). The second input terminal of the second switching unit(30) is connected to a high-definition television signal input terminal(25). An output terminal of the second switching unit(30) is connected to a signal input terminal of a video display unit(40). An output terminal of the signal detection unit(60) is connected to a control signal input terminal of the first switching unit(50) and an input terminal of a vertical deflection circuit(80).

Description

Image processing circuit of high resolution television

1 is an image processing circuit diagram of a conventional high resolution television.

2 shows each video signal display state on an image display unit according to the prior art.

3 is an image processing circuit diagram of a high-definition television according to the present invention.

4 is a detailed circuit diagram of a signal detector of FIG.

5 is an output waveform diagram of each part of the signal detector according to the NTSC signal for one field.

<Explanation of symbols for main parts of drawing>

10: signal processing unit 20: mixing unit

30,50: switching part 40: image display part

60: signal detector 61: low pass filter

62: counter 63,64,65 gate portion

66,67,68: Adder 69,70,71: Koabu

72: exclusive logical operator 73: logical product operator

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image processing circuit in a high-definition television, and more particularly to an image processing circuit of a high definition television capable of obtaining a high resolution by adjusting a band of a scanning line or an image signal.

In general, high-definition (or high-definition) televisions are used to scan high-definition images by scanning signals on a large-screen display equipped with a far larger scan line or video signal for a standard TV with 525 or 625 lines. Refers to a television that can be obtained.

The image processing circuit of a conventional high definition television will be described with reference to FIG. 1 and FIG.

First, referring to the circuit diagram illustrated in FIG. 1, the first input terminal 5 for inputting a National Television System Committee (NTSC) signal is connected to the first input terminal of the signal processor 10. The second input terminal 15 for inputting an external input signal is connected to the second input terminal of the signal processor 10, and the first and second output terminals of the signal processor 10 are connected to the first and second terminals of the mixing unit 20. 2 Input terminals are connected. The output terminal of the mixing section 20 is connected to the first input terminal of the switching section 30, and the second input terminal of the switching section 30 is connected to the third input terminal 25 for inputting a high resolution television signal. The output terminal of the switching unit 30 is connected to the input terminal of the image display unit 40.

The operation of the prior art of the above configuration will be described.

The signal processor 10 inputs an NTSC signal inputted to the first input terminal 5 or an external signal inputted to the second input terminal 15, and scan-converts the input signal corresponding to the parent screen and the child screen. And a signal compression process, and after the signal processing, the parent screen signal is output to the first output terminal, and the child screen signal is output to the second output terminal.

The parent screen signal is an image signal displayed on the image display unit as a whole. The child screen signal is a compressed signal of the parent screen signal or a screen in which a part of the parent screen signal is displayed on a part of the image display unit. It is called.

The mixing unit 20 mixes the two signals so as to display the input parent screen signal and the sub picture signal on the image display unit 40 and outputs them to the first input terminal of the switching unit 30.

The switching unit 30 selects between the output signal of the mixing unit 20 input to the first input terminal and the high resolution television signal input to the second input terminal and outputs the same to the image display unit 40.

Referring to FIG. 2, the signal display state displayed on the large sized image display unit 40 according to the selection output signal of the switching unit 30 will be described with reference to FIG. The signal is displayed as a whole, and the external signal output screen 3 is signal-displayed on a part of the image display unit 40.

The NTSC signal output screen (2) is displayed on the image display unit (40) slightly wider than the external signal output screen (3), the horizontal component is wider than the standard NTSC signal output screen (2), and the vertical component is the standard NTSC signal. The NTSC signal output screen 1 for cinema scopes (movie screen) smaller than the output screen 2 has a signal display with the upper and lower portions of the NTSC signal output screen 2 being excluded.

As shown in FIG. 2, the NTSC signal output screen 2 and the external signal output screen 3 could be arranged on the same screen.

That is, in the conventional image processing circuit, since the output screen displayed when the input signal is an NTSC signal for a cinemascope is displayed only on a part of the image display unit 40 provided with a large size, the screen becomes smaller and smaller, thereby making use of the characteristics of the large screen. There was no problem.

Accordingly, the present invention for solving the above problems is to provide an image processing circuit that can adjust the size of the screen displayed on the image display unit by automatically detecting the signal when the NTSC signal for cinemascope is input and adjusting the vertical component of the signal. have.

The present invention for achieving the above object, the signal detection means for determining whether the input video signal is a general NTSC signal or a movie screen NTSC signal; Image display means for displaying a video signal; And a vertical deflection means for adjusting the vertical component of the video signal input to the image display means when it is determined that the signal detection means is an NTSC signal for a movie screen.

This will be described in detail with reference to the accompanying drawings.

3 is a diagram illustrating an arrangement relationship of the image processing circuit diagram according to the present invention. The input terminal 35 for inputting the synchronization signal is connected to the first input terminal of the signal detector 60, and the input terminal 5 for inputting the NTSC signal is connected to the first input terminal and the signal detector of the signal processor 10. 60 is connected to the second input terminal, and the second input terminal of the signal processor 10 is connected to the external signal input terminal 15. The first input terminal of the signal processing unit 10 is connected to the first input terminal of the mixing unit 20 and the first input terminal of the first switching unit 50, and the second output terminal of the signal processing unit 10 The second output terminal of the mixing section 20 is connected. The output terminal of the mixing unit 20 is connected to the second input terminal of the first switching unit 50, and the output terminal of the first switching unit 50 is connected to the first input terminal of the second switching unit 30. The second input terminal of the second switching unit 30 is connected to the high resolution television signal input terminal 25. The output terminal of the second switching unit 30 is connected to the signal input terminal of the image display unit 40, and the output terminal of the signal detection unit 60 is connected to the control signal input terminal of the first switching unit 50 and the vertical deflection circuit ( In connection with the input terminal of the 80, the output terminal of the vertical deflection circuit 80 is connected with the second input terminal of the image display section (40).

The operation and effect of the present invention by the above configuration will be described with reference to the drawings.

The signal processing unit 10 inputs an NTSC signal or an external signal input to the input terminals 5 and 15, and performs a scan conversion process and a signal compression process on the input signal corresponding to the parent screen and the child screen. After that, the parent screen signal is output to the first output terminal, and the sub picture signal is output to the second output terminal.

The mixing unit 20 mixes and outputs the two signals to display the input parent screen signal and the sub picture signal on the image display unit 40.

On the other hand, the signal detection unit 60 detects whether the NTSC signal inputted to the input terminal 5 is a standard television NTSC signal or a cinemascope NTSC signal, with reference to FIGS. 4 and 5.

4 is a detailed circuit diagram of the signal detection unit 60 shown in FIG. 3, the NTSC signal input terminal 5 is connected to the input terminal of the low pass filter 61, and the synchronization signal input terminal 35 is shown. Is connected to the input terminal of the counter 62, and the output terminal of the counter 62 is connected to each of the input terminals of the first, second and third gate circuits 63, 64 and 65. Each output terminal of the first, second, and third gate circuits 63, 64, and 65 is connected to second input terminals of the first, second, and third adders 66, 67, and 68, respectively. The output terminal of the low pass filter 61 is connected to each of the first input terminals of the first, second and third adders 66, 67 and 68.

Each output terminal of the first, second, and third adders 66, 67, and 68 is connected to input terminals of the first, second, and third core parts 69, 70, and 71, respectively. Each output terminal of the core portions 69 and 71 is connected to the input terminal of the exclusive logic combiner 72, and the output terminal of the exclusive logic combiner 72 is connected to the first input terminal of the logical product operator 73. The second input terminal of the logical AND operator 73 is connected to the output terminal of the second core unit 70, and the output terminal of the logical AND operator 73 is connected to the first switching unit 50 and the vertical deflection circuit ( 80 is connected to the control signal input terminal.

5 is an output waveform diagram of each part of FIG. 4 according to an NTSC signal for one field.

The operation of FIG. 4 will be described with reference to FIG.

The low pass filter 61 prevents malfunction by removing and outputting the high frequency noise signal included in the standard television NTSC signal A and the cinemascope NTSC signal B shown in FIG.

The counter 62 is reset at the falling edge of the vertical synchronization signal 1V to start the counter operation at the rising edge of the vertical synchronization signal.

The first and third gate circuits 63 and 65 are counted values of the counter 62 when there is no video signal in the NTSC signal B for the cinemascope shown in FIG. 5 (FIG. 5D). X ₁ ~ X ₂ , X ₅ ~ X ₆ interval} of the switch to output the signal, as in the standard television NTSC signal (A) does not output the signal when there is a video signal.

The second gate circuit 64 is a standard television NTSC signal or a video signal even when the NTSC signal for a cinemascope is present in the counted value of the counter 62 {X ₃ to X _{4 in} Fig. 5 (d)}. Switching. An output waveform diagram of the first, second and third gate circuits 64 is shown in FIG.

The first, second, and third adders 66, 67, and 68 are input to the low pass input to the first input terminal when the first, second, and third gate circuits 63, 64, and 65 are switched (i.e., open). It is added to the signal of the pass filter 61 and output.

The first and third core parts 69 and 71 input the outputs of the first and third adders 66 and 68 to output a low logic signal when the input signal is high compared to a reference signal. When it is lower than the reference signal, a high logic signal is output.

The second core unit 70 inputs the output of the second adder 67 to output a high logic signal when the input signal is high compared to the reference signal, and low logic when the input signal is lower than the reference signal. Output the signal.

The exclusive logic summator 72 inputs the outputs of the first and third core parts 69 and 71 to output a high logic signal when the two input signals are in a low logic state.

The logical product operator 73 inputs an output signal of the second core unit 70 and an output signal of the exclusive logic summator 72 to output high logic when the two signals are high logic signals.

The relationship between the output signals of the first, second, third core parts 69, 70, and 71, the output signal of the exclusive logic calculator 72, and the output signal of the logical product operator 73 is prepared in a truth table (Table 1). .

That is, the logical product operator 73 outputs a high logic state only when the first and third core parts 69 and 71 are in a low logic state and the second core part 70 is in a high logic state.

The high logic output of the logical product operator 73 applies a high logic control signal called a NTSC signal for a cinemascope to the first switching unit 50 and the vertical deflection circuit 80.

That is, when the high logic control signal is output from the signal detection unit 60, the first switching unit 50 selects the parent screen signal of the signal processing unit 10, which is input to the first input terminal, and the first switching unit 50. When the low logic control signal is applied, the first switching unit 50 selects and outputs an output signal of the mixing unit 20 input to the second input terminal.

The second switching unit 30 selects and outputs an output signal of the first switching unit 50 and a high resolution television signal.

The vertical deflection circuit 80 selects the vertical component of the signal so that the image is displayed on the image display unit 40 as a whole when the NTSC signal for the cinemascope is selected by the second switching unit 30 and the image is displayed on the image display unit 40. To expand the signal.

As described above, the present invention can take advantage of the large screen by automatically displaying the signal on the full screen of the image display unit when the NTSC signal for the cinemascope is input.

Claims (3)

Signal detecting means for determining whether an input video signal is a general NTSC signal or a signal for a cinema scope; Image display means for displaying a video signal; And vertical deflection means for adjusting a vertical component of a video signal input to said image display means when it is judged as a signal for a cinemascope by said signal detection means. The image processing circuit according to claim 1, wherein the video signal input to said image display means is selected from among a high resolution television signal and an NTSC video signal. The signal detection means according to claim 1 or 2, further comprising: a low pass filter for removing high frequency components of a synchronization signal of an input NTSC signal; A counter unit which is reset by the vertical synchronization signal of the input NTSC signal and counts the synchronization signal; A plurality of gate parts having an output value only in a section in which a normal NTSC signal or a video signal exists in a cinema scope screen or a section in which a video signal does not exist in a cinema scope screen according to the counter value; A plurality of addition circuits for adding a synchronization signal of the input NTSC signal from which the high frequency component is removed and an output value of the gate portion; A plurality of cores configured to determine whether a signal is present by determining whether a signal is greater than or equal to a predetermined value by inputting a synchronization signal added with the gate output value; And a logic circuit section for outputting a value for determining an input image signal type based on the result of the core section.