KR19990028007A - Optical disc player and method - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical disc reproducing system. In particular, an address table of a defective error data and a corresponding search speed at this time are tabulated and recorded. Reference is made to an optical disc reproducing apparatus and method for performing a search by switching a search speed. As described above, the present invention stores the address value of the defective error data and the search speed at this time as a table, and when the error data of the same address is searched later, the search speed can be switched directly by referring to the error table. Therefore, the time required to find an appropriate search speed of error data can be shortened, thereby improving the overall processing speed of the optical disc system.

Description

Optical disc player and method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical disc reproducing system. In particular, an address value of a defective error data and a search speed at this time are stored in a table, and when error data is retrieved, the error value is used using the address value of the error data. An optical disc reproducing apparatus and method for reproducing data by switching to a search speed recorded in a table.

In general, an optical disc system searches for an optical disc at a preset speed to reproduce data, and if it is damaged or cannot be played back at the preset speed due to other factors, the optical disc system attempts to rescan by decreasing the search speed at a reproducible speed. . A conventional optical disc system will be described taking as an example the reproduction operation of the optical disc system with a maximum speed of 8 times.

The optical disc reproducing system reads out the data by searching the corresponding reproducing section at the maximum speed of 8 times. At this time, if there is no search error, the read data is decoded and output. However, if there is a search error, search retries are performed, and data is read by switching the speed at a reproducible speed according to the number of search retries. That is, the search is performed by switching the search speed in the order of 8 times, 6 times, 4 times, and the like.

Thus, faulty error data cannot be read at the set initial search speed. Therefore, in order to reproduce the error data, a search retry is performed several times to find a search speed capable of reading the error data. In general, when playing a disc, the same data is often read and reproduced many times. However, when the same error data needs to be read many times, the error data is read after repeating the operation of reducing the search speed. There was a problem that the overall play speed is slow. In addition, when searching for faulty error data, there has been a problem that the efficiency of the optical disk drive decreases due to many search retries.

Accordingly, an object of the present invention is to mount the disk in the optical disk drive to solve the above problems, and then write the address value and the corresponding search speeds of the error data flawed at the time of initial search in the memory table, Thereafter, when error data is detected, the present invention provides an optical disc reproducing apparatus and a method for reading error data by directly switching to a corresponding search speed recorded in an error table using an address value of the error data.

1 is a block diagram showing an optical disk reproducing apparatus for double speed reproduction applied to the present invention;

2 is a flowchart for explaining an error table recording routine for recording the address value of the error data of the present invention and the search speed at this time in a table;

3 is a flowchart for explaining an operation of performing a seek using an error table.

* Explanation of symbols for the main parts of the drawings

10: optical disc, 11: pickup section,

13: control unit, 15: memory,

17: decoding unit,

A feature of the present invention for achieving the above object is a device for reproducing a signal recorded on an optical disc, the pickup unit for reading the signal by reading the optical disc, the position of the error data (scratches, etc.) under the control of the controller If error data is detected during the signal search of the memory and the optical disc in which the corresponding search speeds of the data) are mapped to the address values of the respective error data, the address value of the detected error data is recorded in the error table. There is an optical disc reproducing apparatus including a control unit which determines whether or not there is an address value in the error table, and controls to perform the search by switching to the corresponding search speed of the address value.

According to another aspect of the present invention, in the method for reproducing an optical disc, an initial search performing step of performing a seek at an initial speed, a search restart when detecting faulty error data when performing a search, An error table recording step of setting the search speed of the error data by switching the search speed in order according to the number of times, and recording the search speed in this table together with the address value of the error data, when the error data is detected, When there is an address value of the current error data in the error table in the error data address determination step of determining whether or not an address value of this error data is recorded in the error table and the error data address determination step, this address value And a double speed switching step of performing a search by switching to a corresponding search speed corresponding to.

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

1 is a block diagram showing an optical disk reproducing apparatus applied to the present invention. The apparatus of the present invention includes a pickup section 11 for searching the optical disc 10 to extract information. The control unit 13 receives a read command signal from the outside and outputs a signal for controlling the pickup unit 11. Whenever faulty error data is detected, the control unit 13 records the address value at this time and the corresponding search speed in an error table in the memory 15. The decoding unit 17 decodes the picked up signal and outputs data. Here, the memory 15 clears the value of the error table under the control of the control unit 13 when the disk is replaced.

2 is a flowchart for explaining an embodiment of an error table recording routine for recording the address value of the error data of the present invention and the search speed at this time in a table.

When the controller 13 receives a read command from the outside (step 211), the controller 13 sets a maximum search speed to perform the search (step 212). The search count value is set to '0' (step 213), and the search is performed (step 214). Next, it is determined whether a search error is detected (step 215). If a search error is not detected, the data read from the disc 10 is decoded (step 216), and the decoded data is output (step 217). However, if a search error is detected in step 215, the search count value is increased by '1' (step 218). Then, it is determined whether the search count value is '5' or more (step 219). If the search count value is less than '5', the flow returns to step 214 and repeats the steps. However, if the search count value is '5' or more, the search speed is set at the maximum speed / 2 (step 220), and rescanning is performed (step 221). When rescanning, it is determined whether a search error is detected (step 222). If a search error is not detected, the address value of the error data at this time and the currently set search speed (maximum double speed / 2) are recorded in the error table of the memory 15. However, if a search error is detected, the search count value is increased by '1' (step 223), and it is determined whether the search count value is '10' or more (step 225). If the search count value is less than '10', the process returns to step 221 and repeats the step. However, if the search count value is '10' or more, the search speed is set to the maximum speed / 3 (step 226), and re-search is performed (step 227). Next, it is determined whether a search error is detected (step 228). If no search error is detected, the address value of the error data at this time and the set search speed (maximum speed / 3) are recorded in the error table of the memory 15 (step 230). However, if a search error is detected, the search count value is increased by '1' (step 229), and it is determined whether the search count value is '15' or more (step 231). If the search count value is less than 15, the flow returns to step 227 to repeat the step. However, if the search count value is '15' or more, the search speed is set at the maximum speed / 4 (step 232), and re-search is performed at the set speed (step 233). Next, it is determined whether a search error is detected (step 234). If a search error is not detected, the address value and the search speed (maximum speed / 4) of the error data at this time are stored in the error table of the memory 15. However, if a search error is detected, it is determined as a final error (step 235), and the search process ends. Here, the search counter value is an experimental value and can be changed. As described above, in the initial search of a disk, the address values for the detected error data and the search speed corresponding to the error data are stored in a table. When the error data is retrieved, the address value of the error data is used. Fast search is possible by switching to the search speed recorded in the error table.

FIG. 3 is a flowchart for describing an operation of performing a search by using an error table generated during an initial search of FIG. 2.

In FIG. 3, the controller 13 receives a read command from the outside (step 310) and performs a search (step 315). In the search, it is determined whether a search error is detected (step 320). If the search error is not detected, the process proceeds to step 345 to decode the currently read data and outputs the decoded data (step 350). However, if a search error is detected, it is determined whether or not an address value of this error data exists in the error table of the memory 15 (step 325). If there is no address value of the current error data in the error table, the error table write routine shown in Fig. 2 is executed (step 335). In step 325, if the address value of the error data exists in the error table, the search speed is set at the corresponding speed corresponding to the address value (step 330), and the search is performed (step 340). Then, the searched signal is decoded (step 345) and data is output (step 350).

In the present invention, when the disk is replaced, all error table values of the memory 15 are cleared, and accordingly, the present invention can be performed even with a small memory capacity.

As described above, the present invention tabulates and records the address values of the error data having defects on the optical disc and the corresponding search speed at this time. If error data is detected in the next search, the search speed is referred to by referring to the error table. You can improve the overall speed by switching the playback.

Claims (5)

An apparatus for reproducing a signal recorded on an optical disc, A pickup unit for searching the optical disc to read out a signal; A memory which records, under a control of a control unit, corresponding search speeds of error data (data of a position having a scratch or the like) in correspondence with address values of each error data in a table; And If error data is detected during signal search of the optical disc, it is determined whether the address value of the detected error data is recorded in the error table. When there is an address value in the error table, the search is performed by switching to the corresponding search speed of the address value And a control unit for controlling to perform the operation. 2. The optical disc reproducing apparatus according to claim 1, wherein the memory clears all of the pre-stored data when the optical disc is replaced. In the method for playing an optical disc, An initial search performing step of performing a seek at an initially set speed; In the case of performing a search, when a faulty error data is detected, the search speed is set by sequentially changing the search speed according to the number of search retries, and the search speed is displayed together with the address value of the error data. An error table recording step of recording; An error data address determination step of determining whether or not an address value of the error data is recorded in the error table when the error data is detected; And And a double speed switching step of performing a search by switching to a corresponding search speed corresponding to the address value when there is an address value of a current error data in the error table. 4. The optical disc playback method according to claim 3, wherein the error table recording step finds a search speed of error data by decreasing the search speed according to the number of search retries. 4. The method of claim 3, wherein the double speed switching step includes performing an operation for recording an error table when the address value of the current error data is not present in the error table and recording the address value of the error data and the search speed at this time in a table. Optical disc playback method comprising a.