KR0136702B1 - Compulsory vertical synchronized signal protecting method and apparatus of vcr - Google Patents

Abstract

The present invention relates to a forced vertical synchronizing signal protection device of V-C. In the related art, when a fixed tracking value is transmitted to the servo unit during forward (CUE) / reverse fast reproducing (REV) regardless of a tape, noise is generated in the forced vertical synchronizing unit. P is outputted to output the distorted vertical synchronization signal of the video waveform. Then, there was a problem that the up, down flow of the screen or the locking state of the screen became unstable on the screen. Therefore, the present invention uses the video high frequency (RF) and the envelope to check the state of the tape data on the microcomputer, and then lock the tracking anxiety by performing the tracking data so that the maximum high frequency is located without noise in the head switching rising part. In addition, it prevents noise from piggybacking on the forced vertical synchronization signal with respect to the vertical flow of the screen.

Description

Method and Device for Protecting Forced Vertical Synchronous Signal

1 is a partial configuration diagram of VCR.

2 is a video high frequency signal waveform diagram when the head switching in FIG.

3 is a video envelope waveform diagram at head switching in FIG.

4 is a waveform diagram of a forced vertical synchronous signal in outputting a video signal in FIG.

5 is a block diagram of a forced vertical synchronization signal protection device of the present invention VRC.

6 and 8 are video envelope waveform diagrams during headswitching in FIG.

7 is a flowchart illustrating the forced vertical synchronization signal protection method of the present invention VRC.

FIG. 9 is a waveform diagram of a forced vertical synchronization signal in outputting a video signal in FIG.

FIG. 10 is a waveform diagram of a video high frequency signal at the time of head switching in FIG.

* Description of the symbols for the main parts of the drawings *

11: key part 12: microcomputer

13 Servo unit 14 Luminance / color signal processing unit

15: mechanism 16: video output unit

17: video envelope generator M: capstan motor

The present invention uses a high frequency (RF) waveform in a VCR to forward / reverse high speed playback (CUE) to send a forced vertical sync signal without noise, thereby eliminating the locking anxiety of the screen. The present invention relates to a forced vertical synchronous signal protection device. In particular, the tape data state is determined by using a video high frequency (RF) and an envelope, and the tracking data is determined so that the maximum high frequency is located without noise in the head switching rising part. The present invention relates to a forced vertical synchronization signal protection device and method of V-Cal to prevent the locking anxiety and the vertical flow of the screen.

The circuit configuration of the conventional VCR includes a key part 1 that allows a user to select a function such as fast forward playback (CUE) and backward fast playback (REV), as shown in FIG. The microcomputer 2 which recognizes when a fast forward play (CUE) / reverse fast play (REV) key signal is input through the key unit 1 and outputs a command for switching the mechanism and a tracking value for reading the tape at that time; In response to the command output from the microcomputer 2, the mechanism 5 is driven through the capstan motor M, and at the same time, data is read in the forward fast playback (CUE) / reverse fast playback (REV) tracking values. And the servo unit 3 for outputting the forced vertical synchronization signal to the luminance / color signal processing system and the forced vertical synchronization signal received from the servo unit 3 into the vertical synchronization signal column of the video signal waveform. Mine through part 6 And a luminance / color signal processing section 4 for sending.

Looking at the conventional technology configured as described above are as follows.

When the user selects the fast forward play (CUE) / reverse fast play (REV) key through the key unit 1, the microcomputer 2 recognizes the command and switches the mechanism between the clock CLK and the data. The tracking value for reading data from the tape operated by the mechanism switching is transmitted to the servo unit 3.

Then, the servo unit 3 rotates the capstan motor M in the forward direction and the reverse direction to drive the mechanism 5 in the forward fast regeneration (CUE) / reverse fast fast regeneration (REV) system, and then read the tape as the tracking value. At the same time, a forced vertical synchronization signal is sent to the luminance / color signal processing section 4.

Therefore, the luminance / color signal processing section 4 inserts a forced vertical synchronization signal into the vertical synchronization signal field of the video signal waveform and outputs it to the video output section 6.

At the time of recording, it was recorded at normal speed, so if the video high-frequency waveform of FIG. 2 and the third video envelope waveform of head A and B were obtained, if the tracking was correct regardless of the tape, the A tracking signal would be read on the head A, and the head B. The B tracking signal is reproduced to be read.

In high-speed search, however, the output drops when the A head reads the B track in the 2x, 3x, fast forward playback (CUE) / reverse fast playback (REV) modes, and when the output gain (GAIN) is increased, the noise increases on the screen. Appears as (Bar).

That is, as shown in FIG. 4, the noise is piggybacked on the forced vertical sync to output the distorted vertical sync signal of the video waveform.

Then, there was a problem that the locking state of the screen, the flow of the screen or the screen becomes unstable on the screen.

Accordingly, the present invention provides a device for protecting a forced vertical synchronous signal of V-C in order not to affect the locking anxiety of the screen caused by the forced vertical synchronous signal and the up and down flow.

Another object of the present invention is to protect the forced vertical synchronization signal by adjusting the tracking so that the head switching rising point to a certain distance away from the portion of the envelope value is minimized in order to minimize the effect of noise misinterpreted as forced synchronization It is to provide a V vertical forced vertical synchronization signal protection device to minimize shaking.

According to the present invention, a method of protecting a forced vertical synchronization signal of a V-C according to the present invention includes detecting a value of a head switching rising portion of a video envelope value when a high-speed search command is input, and detecting the envelope value detected in the step. Comparing with the reference value, and driving the capstan motor so that the comparison value compared in the step is less than a predetermined value.

According to the configuration of the forced vertical synchronization signal protection device of the present invention VLC for performing the method consisting of the above steps, as shown in FIG. 5, the video RF received through the video head is enveloped accordingly. A video envelope generator 17 for outputting a direct current (DC) value, a key section 11 for allowing a user to select functions such as fast forward playback (CUE) and backward fast playback (REV), and the key section ( 11) Clock and data are detected so that the maximum high frequency (RF) is located in the head switching rising part by grasping the state of the tape data according to the key signal applied through the key and the video envelope generator 17 and the DC value of the envelope. Microcomputer 12 for outputting the driving mechanism 15 through the capstan motor (M) in accordance with the command output from the microcomputer 12 and at the same time the forward fast regeneration (C A servo unit 13 for reading data as a UE / reverse fast reproducing (REV) tracking value and outputting a forced vertical synchronization signal to a luminance / color signal processing system, and a forced vertical unit received from the servo unit 13; And a luminance / color signal processing unit 14 which inserts the synchronous signal into the vertical synchronous signal field of the video signal waveform and sends it out through the video output unit 16.

Referring to the operation and effects of the present invention configured as described above in detail.

When the user selects the fast forward play (CUE) / reverse fast play (REV) key through the key unit 11, the microcomputer 12 recognizes this command and switches the mechanism between the clock CLK and the data DATA. The tracking value for reading data from the tape operated by the mechanism switching is transmitted to the servo unit 13.

Then, the servo unit 13 rotates the capstan motor M in the forward direction and the reverse direction to drive the mechanism 15 in the forward fast regeneration (CUE) / reverse fast fast regeneration (REV) system, and then read the tape as the tracking value. At the same time, a forced vertical synchronization signal is sent to the luminance / color signal processing unit 14.

Therefore, the luminance / color signal processor 14 inserts a forced vertical synchronization signal into the vertical synchronization signal field of the video signal waveform and outputs the forced vertical synchronization signal to the video output unit 16.

At this time, if the video envelope generator 17 receives the video high frequency (RF) input through the video head and outputs the DC value of the envelope accordingly, the microcomputer 12 is up to 1.5 ms from the head switching rising point. The value of the head switching rising part is detected from the detected video envelope value and then compared with the reference value ref.

Here, the reference value ref is a middle value between the maximum and minimum MIN envelope values within 1.5 m at the head switch rising point, that is, {(MAX-MIN) / 2} + MIN = ref.

The scan interval is 1.5ms from the head-switching rising point because the forced vertical synchronization signal is between 350 and 450. That is, as shown in FIG. 6, A, B, C, and D are areas that appear to be noises on the screen. Among them, A and D exceed 1.5 ms at the head switching rising / falling points. The TV appears as noise on the screen.

Therefore, it is a section to prevent the increase of the noise bar on the screen by finding the maximum point of the video envelope to protect the forced vertical synchronization signal.

The microcomputer 12 outputs tracking data to the servo unit 13 to reduce the difference between the envelope value and the reference value in the head switching rising portion, and drives the capstan motor M so that the envelope value is at the reference value.

This prevents the movement of the noise bar on the screen and provides the effect of screen stability.

In addition, even if the envelope reference voltage (ENV · MAX / 2) as shown in FIG. 8 is obtained, a stable screen can be obtained, and thus the envelope reference voltage (ENV ·) is not changed even if the conventional initial tracking data is not changed up to the maximum value (MAX) of the video envelope. Tracking data can be obtained by putting the ref) value at the head switching rising point. In addition, reducing one section of tracking data to 1 = 250sec can be a more detailed scan.

Therefore, as shown in FIG. 9 and FIG. 10, no forced noise occurs in the forced vertical synchronization signal, and the user can solve the up, down flow, and locking anxiety on the screen during forward / reverse fast playback (REV) by themselves. There is an effect to provide.

Claims (3)

Detecting a value of the head switching rising portion of the video envelope value, comparing the envelope value detected in the step with a reference value when the fast search command is input, such that the comparison value compared in the step is equal to or less than a predetermined value; A method of protecting a forced vertical synchronizing signal of V-C, characterized in that it comprises the step of driving the capstan motor. A video envelope generator that receives the input video high frequency (RF) and outputs a direct current (DC) value of the envelope, and a tape according to the direct current value of the envelope output from the forward / reverse fast playback key signal and the video envelope generator. The microcomputer outputs clock and data so that the maximum RF is located at the head switching rising part by grasping the state of the data, and the mechanism is driven through the capstan motor M according to the data output from the microcomputer. At the same time, the data is read at the tracking value at that time, and the servo unit for outputting the forced vertical synchronization signal to the luminance / color signal processing system and the forced vertical synchronization signal received from the servo unit are inserted in the vertical synchronization signal field of the video signal waveform. It is characterized by consisting of the luminance / color signal processing unit which is put out through the video output unit V is forced to a vertical synchronizing signal of the protection device CR. 2. The V computer of claim 1, wherein the microcomputer outputs tracking data at the time of forward (CUE) / reverse fast playback (REV) or at fast forward (FF) / rewind (REW) and determines the data state of the tape. SR's forced vertical sync signal protection.