KR0147116B1 - Control method for head switching position of digital vcr - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to DVCR (Digital VCR). Particularly, in order to secure compatibility according to a mechanism between each DVCR set, a DVCR having improved efficiency of a system by detecting specific position information of digital data on a tape and controlling a head output signal is provided. A head switching position control method.

As described above, the head switching position control method of the DVCR according to the present invention is a digital data recording / reproducing system, in which a first step in which a counter is initialized by a head switching pulse (HSP) and a count is started, The second step of determining the number of repeated counts (N) by stopping the count operation when the detected position mark is detected and counting the count value (m) with respect to a certain track amount, and the count value (M) is within the tracking tolerance. The third step of initializing the count value M to repeat the first and second steps to obtain the total count value SM, and comparing the count number N with the system set value K, N = K. The fourth step of repeating the first, second, and third steps to be, and the average count value AM is calculated using the system set value K and the total count value SM, and then the head switching positioning reference value of the system ( Compared with X, Y), the fifth step of generating the HSP.

Description

Head Switching Position Control Method of Digital VCR

1 is a block diagram of a signal processing system of a general DVCR.

2 is a timing diagram of a playback data stream according to FIG.

3 is a block diagram of a signal processing system of a DVCR of the present invention.

4 is a timing diagram showing a change in a reference sync position according to FIG.

5 is a flowchart showing a head-switched position control method of the DVCR of the present invention.

* Explanation of symbols for main parts of the drawings

30: Sync / ID detection unit 31: playback signal processing unit

32: counter 33: parallel / serial conversion unit

34: sheath cone

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to DVCR (Digital VCR). Particularly, the DVCR system is a method of controlling the head output signal by detecting specific position information of digital data on a tape in order to secure compatibility according to a mechanism between each VCR set. The head switching position control method.

Hereinafter, a signal processing system of a conventional DVCR will be described with reference to the accompanying drawings.

FIG. 1 is a block diagram of a general DVCR signal processing system, and FIG. 2 is a timing diagram of a playback data stream according to FIG.

A digital recording and reproducing apparatus capable of recording and reproducing an analog signal while recording and reproducing a digital signal, comprising: a receiver (1) for receiving transmitted compressed data and a system for converting data of the receiver into a specific data format Decoder 2, ECC encoder 4 for ECC encoding and formatting to suit the characteristics of recording and playback channels, formatting section 5, and Sync / ID adding means for adding Sync / ID to the formatted data. A section 6, a recording signal processing section 7 for converting the output signal of the Sync / ID adding means section 6 into a suitable code, and a head for recording the signal of the recording signal processing section 7 on a tape (8), playback signal processing section 9 for reproducing data recorded on tape by head 8 in reverse order, Sync / ID detection section 10, deformatting section 11, ECC decoder 12, To decode and display the output data of the ECC decoder 12. It consists of five decoder 3.

The analog signal can be recorded and reproduced using the same circuit as the existing analog video and audio signal processor 13.

At this time, the drum (Drum) structure is configured to separately process the digital recording, reproduction and analog recording, and the head for reproduction.

As shown in FIG. 2, the structure of the playback data stream determines the position of the head switching pulse (HSP) based on the PG indicating the head position on the drum, which is a reference for setting the actual data position.

The data stream inserts a certain amount of dummy data in consideration of the influence on the head and the head switching area (rising and falling edge of the HSP), and the actual data is composed of many sync blocks.

These Sync blocks are generally composed of Sync, ID, and data. The length of each Sync block, the length of Sync, ID is determined according to system design.

In order to restore the digital data restored by the playback signal processing unit to the original signal during playback, a window is opened at a corresponding position for a predetermined period of time to find Sync and ID, and signal processing is performed based on them.

In general, the tape drive system uses the first sync (or the characteristic marking at the beginning of the track at the beginning of the track) and the HSP to be read from the track, so that the signal processing is relatively simple.

If this criterion is shaken, the data is mixed in the process of restoring to the original data stream regardless of the actual data during the playback signal processing, resulting in a total error. Will be placed. However, the above-mentioned conventional digital data recording / reproducing system has the following problems.

In the reproduction data stream for signal processing, the position of the first detected sync (or reference position) data after the dummy data becomes important, and has a variation range of several tens of microseconds due to mechanical tolerances during self-set recording and reproduction.

Therefore, considering the compatibility between sets, the mechanical error of the digital and analog heads mounted on the drum is relatively increased. Therefore, when the tape recorded on the other set is reproduced, the reference position data is incorrectly detected. The case occurs.

In addition, since it is desirable to refer to the existing analog signal system, the error range of the digital signal system becomes larger.

That is, in order to process certain data for such a tolerance or deviation, it is necessary to use a lot of unnecessary dummy data based on the head switching point or open a detection window largely in consideration of the variation in order to detect initial sync. There is a problem that has caused a problem in the detection of data.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the conventional DVCR. The present invention provides a method for controlling data reproduction efficiency of a system by using a signal for controlling a head output signal by detecting specific position information of digital data on a tape. The object of the present invention is to provide a method for controlling the head switching position of an enhanced DVCR.

The head switching position control method of the DVCR of the present invention for achieving the above object comprises a first step in which a count is initialized by a head switching pulse (HSP) in a digital data recording / reproducing system and a count is started; When the Sync / ID is detected and the position mark is recognized, the second step of determining the number of repeated counts (N) by stopping the counting operation and calculating the average value of the count value (m) for a predetermined track amount, and the count value (M) A third step of initializing the count value M to be within the tracking tolerance and repeating the first and second steps to obtain the total count value SM; and comparing the count number N with the system set value K. The fourth step of repeating the first, second, and third steps such that N = K, and using the system set value K and the total count value SM, the average count value AM is calculated to switch the head of the system. The fifth step of generating HSP is compared with the position control reference value (X, Y). Eojinda.

Hereinafter, the head switching position control method of the DVCR of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a block diagram of the signal processing system of the DVCR of the present invention, and FIG. 4 is a timing diagram showing a change in the reference sync position according to FIG.

The head switching position control method of the DVCR according to the present invention has a minimum of dummy data (which is an impact noise generated during head switching and a minimum run up data area for data restoration). The reference sync is always detected at a stable position with respect to the relative deviation between sets. The reproduction signal processing unit 31 restores and outputs the signal detected by the head, and the sync signal is output from the reproduction signal processing unit 31. Counting is started by the output signal of the Sync / ID detection unit 30 under the control of the Sync / ID detection unit 30 that detects / ID and the system 34 that controls the entire system, and the head switching pulse is HSP. Of the count 32 for outputting a count value for generation of the < RTI ID = 0.0 >), a parallel / serial conversion section 33 for converting parallel data of the counter 32 into serial data, and the parallel / serial conversion section 33 < / RTI > System by data It is composed of a sheath cone 34 for outputting a control signal for the generation of the HSP by completing the basic variation according to the characteristics.

Operation of the head switching position control system of the present invention configured as described above is as follows.

While the data reproduced and restored by the reproduction signal processing unit 31 is applied to the Sync / ID detection unit 30 and detected, the counter 32 starts to count the parallel clock after being initialized by the HSP.

When the position mark for the first sync detected during counting comes, the counting operation is stopped and the count output is sent, and the parallel / serial converting unit 33 is transmitted serially to the scissor 34.

The sheath cone 34 softly counts in consideration of the basic variation according to system characteristics to generate the HSP.

The algorithm for generating HSP in the sheath cone 34 is as follows.

First, the count 32 is initialized by the head switching pulse (HSP) and starts counting (step 501). When the first Sync / ID is detected and the position mark is recognized, the count operation is stopped and the count value M is fixed. The average value is calculated for the track amount, and the number of repeated counts N is input (step 502).

Next, the count value M is compared with the tracking tolerance maximum value Th and the tracking tolerance minimum value Tl (503 steps), and the 501 steps, 502 steps, and 503 steps are counted so as to fall within the range. M) is initialized and the number of counts is varied (N-1) and repeated (504 steps) to obtain the total count value SM (505 steps).

The above process is repeated so that N = K by comparing the count number N with the system setting value K (step 506).

Subsequently, the average count value AM is calculated using the system set value K and the total count value SM (step 507), and compared with the head switching positioning reference values (X, Y) of the system (508, 509 steps). ), If the average count value AM is smaller than the headswitching positioning reference values (X, Y), the average count is determined by the first count value (CM = Nl) based on PG (510 steps) as shown in FIG. When the value AM is detected, the HSP is generated faster (step 513).

If the average count value AM is within the headswitching positioning reference values X and Y, the second count value CM = Nm based on PG (511 steps) is the same as the average count value AM detection time. Generate the HSP (step 513).

If the average count value AM is greater than the headswitching positioning reference values X and Y, the HSP is generated more slowly than the average count value AM is detected by the third count value CM = Nn based on the PG. (513 step).

As described above, the head switching position control method of the DVCR according to the characteristics of the system is divided into count tolerances according to the characteristics of the system, thereby minimizing unnecessary dummy data, and thus reducing mechanical tolerances and relative deviations between sets. By minimizing the data error caused by the system, it is possible to secure the stability and compatibility of the system. Therefore, the system can be operated more efficiently.

Claims (4)

In a digital data recording / reproducing system, when the count is initialized by a head switching pulse (HSP) and starts counting, when the first Sync / ID is detected and the position mark is recognized, the count operation stops and the count value ( m) a second step for determining the average value for a certain track amount to determine the number of repeated counts (N), and initializing the count values (M) so that the count value (M) is within the tracking tolerance. A third step of repeating the steps to obtain the total count value SM, and a fourth step of repeating the first, second, and third steps so that N = K by comparing the count number N with the system setting value K; A fifth step of calculating the average count value AM using the system set value K and the total count value SM, and generating the HSP by comparing the head switching positioning reference values X and Y of the system. DVCR head switching position control method characterized in that it comprises a. The DVCR according to claim 1, wherein when the average count value AM is smaller than the headswitching reference value, the HSP is generated faster when the average count value AM is detected by the first count value based on the PG. Head switching position control method. The method of claim 1, wherein if the average count value AM is within the headswitching positioning reference value, the HSP is generated in the same manner as the average count value AM is detected by the second count value based on the PG. DVCR head switching position control method. The DVCR according to claim 1, wherein when the average group count value AM is greater than the headswitching positioning reference value, the HSP is generated more slowly when the average count value AM is detected by the third count value based on the PG. Head switching position control method.