KR100215463B1 - Tracking method to recorded video signal and the apparatus - Google Patents

Abstract

The disclosure relates to a method and apparatus for tracking video signals recorded on a tape. According to the present invention, the track switching reference signal TSR, which is a phase reference signal, and the track pair signal TRP indicating the position of the track are controlled to control the capstan motor to move the current track in both directions. Provide effect.

Description

Method and apparatus for tracking recorded video signal

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital camcorder or VCR system for reproducing video signals recorded on a tape frame by frame, and more particularly, to a method and apparatus for tracking recorded video signals.

In general, a large number of digital camcorders or video cassette recorders (VCRs) employing the NTSC method in which 10 tracks constitute one frame (FRAME) are produced in Korea. The microcomputer of such a device tracks the recorded video signal to bring the video signal back to the normal screen. The conventional tracking method tracks while recognizing the relationship between the track pair signal TRP indicating the current track position and the track switching reference signal TSR, which is a phase reference signal, and continuously moving to the right side of the track. This conventional tracking method will be described in more detail with reference to FIG. 1.

FIG. 1 is a waveform diagram of signals related to tracking of a general recorded video signal, and shows a track switching reference signal TSR synchronized with the head switching pulse HD-SW. The head switching pulse HD-SW is a reference signal set for each mat rack so that the head tracks the track. The track switching reference signal TSR is a phase reference signal necessary for synchronizing it, and in synchronism with it, controls the starting point at which the head tracks the track. 1 shows a frame pilot signal FPS, which is a frame reference signal inverted every 10 fields, and track pair signals TRP0 to TRP2 indicating which track is the current track. As shown, the track switching reference signal TSR has a track number of 0.99 based on the rising edge EDGE of the frame pilot signal FPS. This signal also has a track number of 0 .. 9 based on the falling edge EDGE of the frame pilot signal FPS. On the other hand, the track pair signals TRP0 to TRP2 have different values every two tracks.

In general, the track pair signals TRP0 to TRP2 correspond to track pair numbers 4, 0, 1, 2, and 3 so that the track switching reference signals TSR correspond to track numbers 9.0, 1.2, 3.4, 5.6, and 7.8, respectively. If not, the conventional microcomputer not shown reproduces a normal screen. If the number of the track pair signals TRP0 to TRP2 does not match the track number of the track switching reference signal TSR, the microcomputer moves to the right to track the next track. The microcomputer detects the track pair signals TRP0 to TRP2 in the tracked track and compares the numbers with those of the track switching reference signal TSR. As a result, if the microcomputer does not match, the microcomputer repeatedly moves to the right and repeats the above-described process. If the track pair signals TRP0 to TRP2 detected through the above process match the signal having the track number of the track switching reference signal TSR, the normal screen is reproduced.

The tracking method in the NTSC method, in which the ten tracks constitute one frame (FRAME), moves while moving to the right, so that up to 10 tracks must be searched even if one track is not close to each other. As a result, the screen is distorted due to instantaneous noise.

1 is a waveform diagram of signals related to tracking of a general recorded video signal;

2 is a block diagram showing an apparatus for tracking a recorded video signal according to the present invention;

3 is a flowchart illustrating a tracking method of a recorded video signal according to the present invention;

4 is a waveform diagram of signals output from the devices shown in FIG. 2;

Explanation of symbols for main parts of the drawings

30: microcomputer 32: first signal generator

34: second signal generator 36: capstan drive unit

38: capstan motor

A feature of the present invention for solving the above-mentioned problems is a method of tracking a recorded video signal by driving a capstan motor, the first switching of the head switching pulse (HD-SW) and the track switching reference signal (TSR) is synchronized. A second step of generating a signal having a track number of the track switching reference signal, a third step of generating a signal having a track pair number of the track pair signals TRP0 to TRP2, and a second step and a third step A fourth step of determining whether or not the steps are synchronized, a fifth step of detecting a phase difference between the two signals when the synchronization is not matched, and a speed of the capstan motor in accordance with the detected phase difference. And a sixth step of moving the position bidirectionally.

In addition, another aspect of the present invention is a device for tracking a recorded video signal, it is determined whether the track number of the track switching reference signal (TSR) and the track pair number of the track pair signal (TRP) is synchronized and accordingly the capstan motor A microcomputer for outputting a control signal for controlling the speed of the; A second signal generator configured to generate a track switching reference signal TSR, detect a track pair signal, and output two signals to the microcomputer; A first signal generator for generating a frame reference pulse (FRP) and outputting it to the microcomputer; A capstan driving unit driving a capstan motor by receiving a driving control signal from a microcomputer; And a capstan motor driven according to the capstan driving unit.

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

2 is a block diagram showing an apparatus for tracking a recorded video signal according to the present invention.

The apparatus of the present invention outputs a drive control signal PWM for controlling the first signal generator 32 and the capstan driver 36 for outputting the frame reference pulse FRP, which is inverted every five fields, to the microcomputer 30. The microcomputer 30 is provided. In addition, the microcomputer 30 divides a clock applied from a clock generator (not shown) and outputs the head switching pulse HD-SW to the second signal generator 34. The apparatus of the present invention includes a second signal generator 34 for outputting the track switching reference signal TSR and the track pair signals TRP0 to TRP2 to the microcomputer 30 according to the applied head switching pulse HD-SW. Equipped. On the other hand, the apparatus is composed of a capstan drive unit 35 for controlling the rotation speed of the capstan motor and the capstan motor 38 for rotating the capstan in accordance with the drive control signal PWM received from the microcomputer 30.

The operation of the tracking apparatus of the recorded video signal of the present invention configured as described above will be described in detail with reference to FIGS. 3 and 4.

Before briefly describing the flowchart shown in FIG. 3, FIG. 4 will be briefly described and applied to the description of the flowchart.

FIG. 4 is a waveform diagram of signals output from each device shown in FIG. 2. This shows the same signal waveform as shown in FIG. 4 shows the frame reference signal FRP inverted every five fields.

3 is a flowchart illustrating a tracking method of a recorded video signal according to the present invention.

First, when a user inputs a playback key from a key input unit (not shown), the microcomputer 30 operates a capstan to reproduce a screen (step 210). The microcomputer 30 receives a head switching pulse HD-SW from a clock generator (not shown). On the other hand, the microcomputer 30 determines whether the rotation speed of the operated capstan motor 38 has reached the normal speed for reproducing the normal screen (step 212). If the microcomputer 30 does not reach the normal speed, the microcomputer 30 repeats the operation from step 212. On the other hand, when the rotational speed of the capstan motor 38 reaches the normal speed, the microcomputer 30 receives the frame reference pulse FRP from the first signal generator 32 and is applied by a clock generator (not shown). The head switching pulse HD-SW is outputted to the second signal generator 35 (step 214). The second signal generator 35 outputs the track switching reference signal TSR to the microcomputer 30 according to the applied head switching pulse HD-SW (step 216). The microcomputer 30 synchronizes the head switching pulse HD-SW with the track switching reference signal TSR based on the applied track switching reference signal TSR (step 218). The microcomputer 30 generates a signal A in which the track switching reference signal TSR has a track number (step 220), and tracks of the track pair signals TRP0 to TRP2 received from the second signal generator 34. A signal B having a pair number is generated (step 222). The microcomputer 30 determines whether the signal A having the track number of the track switching reference signal TSR and the signal B having the track pair number of the track pair signals TRP0 to TRP2 are synchronized (step 224). When the two signals A and B are synchronized, the normal screen is played back. On the other hand, if the two signals A and B are not synchronized, the microcomputer 30 detects the difference between the two signals A and B (step 226). The microcomputer 30 determines whether the current phase should be moved to the right by checking whether the difference between the two signals A and B is positive or negative according to the positive (+) or negative (−). 228). If the difference between the two signals A and B is positive, the microcomputer 30 is in a fast phase, and if it is negative, the current phase is slow. The microcomputer 30 moves to the left if the current phase is fast, and moves to the right if the current phase is slow. If the current phase has to move to the right, the microcomputer 30 outputs the increased driving control signal PWM to the capstan driver 32 to increase the rotation speed of the capstan motor 38 (step 230). On the other hand, if the current phase has to move to the left side, the microcomputer 30 outputs the decelerated drive control signal PWM to the capstan driver 36 to reduce the rotation speed of the capstan motor 38 (step 232). When the steps 230 and 232 are completed, the process returns to the step 220, and the process is repeated from the step 220 for every track.

As described above, the present invention determines whether the track switching reference signal (TSR) and the track pair signal (TRP) are synchronized, and controls the number of rotations of the capstan motor according to the result to quickly track the current track in both directions. To provide the effect. In addition, this provides the effect of removing the instantaneous noise generated when the screen is reproduced.

An object of the present invention is to determine whether the track switching reference signal (TSR), which is a phase reference signal, and the track pair signal (TRP) indicating the track position are synchronized, and the rotation speed of the capstan motor is varied according to the result. Another aspect of the present invention is to provide a tracking method and apparatus for recording a recorded video signal which can be quickly moved by moving to the right.

Claims (3)

A method of tracking a recorded video signal by driving a capstan motor, comprising: a first step of synchronizing a head switching pulse (HD-SW) with a track switching reference signal (TSR); Generating a signal having a track number of the track switching reference signal; Generating a signal having track pair numbers of the track pair signals TRP0 to TRP2; A fourth step of determining whether the second and third steps are synchronized; A fifth step of detecting a phase difference between the two signals when the synchronization is not corrected as a result of the determination in the fourth step; And a sixth step of shifting the position of the track in both directions by adding and subtracting the speed of the capstan motor according to the detected phase difference. The method of claim 1, wherein the sixth step is to reduce the speed of the capstan motor when the detected phase difference is a positive value to move the position of the track to the left, the capstan motor when the detected phase difference is a negative value A method of tracking a recorded video signal which moves the position of the track to the right by increasing its speed. In the apparatus for tracking a recorded video signal, determining whether the signals having the track number of the track switching reference signal (TSR) and the track pair number of the track pair signal (TRP) are synchronized and controlling the speed of the capstan motor accordingly. A microcomputer to output a control signal for the microcomputer; A second signal generator configured to generate a track switching reference signal (TSR), detect a track pair signal, and output the two signals to the microcomputer; A first signal generator configured to generate a frame reference pulse (FRP) and output the frame reference pulse to the microcomputer; A capstan driver driving a capstan motor by receiving a driving control signal from the microcomputer; And a capstan motor driven according to the capstan driving unit.