KR880002410Y1 - Scan search device - Google Patents

Abstract

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Description

Scan Search Device Using Vertical Synchronization Signal of Video Playback Equipment

1 is a block diagram of a conventional Scan Search1 apparatus.

2 is a block diagram of a scan search device of the present invention.

3 is a detailed circuit diagram of one embodiment of FIG.

4 is an output waveform diagram of each part of FIG.

* Explanation of symbols for main parts of the drawings

1: Comparator 2: Synchronous Flip-Flop

3: scan search operation unit

The present invention is a video reproducing apparatus for reproducing an image medium such as a video disc, and performs a function of scan search in synchronization with a vertical synchronization signal which is a basic synchronization signal of a screen, thereby making it stable during scan search. The present invention relates to a scan search apparatus using a vertical synchronizing signal that enables to obtain a screen.

As shown in FIG. 1, when the scan search operation command signal b is input to the scan search operation unit 12, the scan search operation unit 12 is connected to the pickup driving unit 14. As shown in FIG. The pickup driving signal (c) is applied to drive the pickup, and at this time, the scan search operation unit (12) applies the control signal (d) to the switching unit (11) and turns on the switching unit (11). The tracking difference signal a is applied to the video track tracking device 13 through the switching unit 11 to track the video track. On the other hand, the scan search operation unit 12 detects a point in time when it is difficult to track the image track due to the pickup drive from the image track tracking difference signal a and cuts off the control signal d applied to the switching unit 11 so as to block the control point d. The switching unit 11 is turned off, so that the video track tracking difference signal a is not applied to the video track tracking device 13 so as to skip a certain program, and then the video track tracking device 13. If is recognized, the scan search operation unit 12 may perform image track tracking by applying the control signal d to the switching unit 11 again and turning it on.

However, such a conventional device is to be determined when the image track tracking value signal (a) reaches the specified size irrespective of the vertical synchronization signal which is the basic synchronization signal of the screen when the switching unit 11 stops the operation. As a result, the switching part 11 stops the operation, so that a part of the jump over the program can appear on any part of the screen, and thus there is a drawback that a stable screen can not be obtained in the scan search.

The present invention has been devised to eliminate the above-mentioned drawbacks, and provides a scan search apparatus which can obtain a stable screen during scan search by synchronizing the function of scan search with the vertical sync signal which is the basic sync signal of the screen. Has its purpose.

The purpose of the present invention is to synchronize the starting point of the program skipping at the time of the first vertical synchronization signal input after the image track tracking difference signal value reaches the designated size, and then the program is excellent at the time of the next vertical synchronization signal input. This is accomplished by synchronizing over the end points and muting the video signal applied to the screen in the period over which the program skips.

Hereinafter, the present invention will be described in detail by the accompanying drawings of the present invention.

2 is a block diagram of a scan search apparatus of the present invention, as shown therein, a comparator 1 for receiving an image track tracking difference signal A and outputting a comparison signal D, and a scan search operation command signal B. And a synchronization flip-flop 2 for receiving a vertical synchronization signal C and a comparison signal D of the comparator 1 and generating an image track tracking switch control signal E and an image muting signal F. It consists of a stand search operation part 3 which receives the scan search operation command signal B and generates a pickup drive signal G.

FIG. 3 is a detailed circuit diagram of FIG. 2, and as shown therein, the image track tracking difference signal A is applied to the non-inverting input terminal of the comparator 1 to which the reference signal V _ref is applied to the inverting input terminal. And the output terminal thereof is connected to the input terminal D of the synchronous flip-flop 2, and the vertical synchronization signal B is connected to the clock terminal of the synchronous flip-flop 2 through the inverter I ₁ . CK), and the scan search operation command signal B is connected to the reset terminal of the synchronous flip-flop 2. After being connected to the signal), the signal of its output terminal Q is applied as the video muting signal F and the output terminal ( ) Is applied as an image track tracking switch control signal (E).

In addition, the scan search operation command signal B is composed of NAND gates NAND ₁ , NAND ₂ , resistors R ₁ , R ₂ , and capacitor C ₁ to perform an oscillation operation. Is connected to the input side of the output signal, and its output signal is applied as the pickup drive signal (G).

Referring to the effect of the present invention configured in this way in detail as follows.

When the scan search operation command signal B is output at high potential by instructing the scan search operation, the scan search operation command signal B having the high potential is reset terminal of the flip-flop 2 for synchronization. Since the synchronous flip-flop 2 is released in the reset state and the high-potential scan search operation command signal B is applied to the scan search operation unit 3, the scan search operation unit ( 3) the oscillation operation is performed to output the pickup driving signal G. Accordingly, the pickup is driven so that the image track tracking difference signal A applied to the non-inverting input terminal of the comparator 1 is the fourth (a). It is gradually increased as shown in FIG. Therefore, when the image track tracking difference signal A becomes higher than the reference signal Verf, the output signal D of the comparator 11 is output at high potential as shown in FIG. 4 (b) to synchronize the flip-flop ( It is applied to the input terminal D of 2).

At this time, when the low potential vertical synchronization signal C is output as shown in FIG. 4 (c), the low potential vertical synchronization signal C is inverted to high potential in the inverter I ₁ for synchronization. Since it is applied to the clock terminal CK of the flip-flop 2, a high potential signal is output to its output terminal Q as shown in FIG. 4 (e) at the time when the vertical synchronization signal C is applied. His output terminal ( ), A low potential signal is output as shown in FIG. 4 (d).

In this way, since the high potential signal output from the output terminal Q of the synchronous flip-flop 2 is applied as the image muting signal F, the video signal appearing on the screen is muted, and the output terminal of the synchronous flip-flop 2 is ( The low-potential signal output from) is applied as the video track tracking switch control signal (E) to block the video track tracking difference signal (A) from being applied to the video track tracking device, thereby stopping the video track tracking and skipping the program. .

When the image track tracking is stopped as described above, the image track tracking signal A is reduced as shown in FIG. 4 (a), so that the output signal D of the comparator 1 is shown in FIG. 2 (b). As shown in the drawing, it is output at a low potential and applied to the input terminal D of the synchronous flip-flop 2. Accordingly, as shown in FIG. 4 (e), the low potential signal is output to the output terminal Q of the synchronous flip-flop 2 at the time when the next vertical synchronization signal C is applied to the image muting signal F. FIG. Video muting is canceled, and the output terminal of the synchronous flip-flop 2 As shown in FIG. 4 (d), the high potential signal is output and applied as the image track tracking switch control signal E, so that the image track tracking difference signal A is applied to the video track apparatus to resume the video track. To be tracked.

As described above, the present invention synchronizes the start point and the end point of a part where the program jumps to the first vertical sync signal and the next vertical sync signal input after the image track tracking difference signal becomes higher than the reference signal during scan search. Since the program mutes the image appearing on the screen during the skipping part of the program, there is an advantage in that a stable screen can be reproduced without damage of the image during scan search.

Claims (1)

A comparator 1 for comparing the image track tracking difference signal with a reference signal and outputting a comparison signal, and a synchronization for generating the image muting signal and the image track tracking switch control signal by receiving the comparison signal, the vertical synchronization signal, and the scan search signal. And a scan search operation unit (3) for generating a pickup driving signal in response to the scan search command signal.