KR19990031883A - Automatic adjustment of track balance on optical disc - Google Patents

Abstract

The present invention provides a method for automatically adjusting track balance of an optical disc to enable more precise control of track balance in an apparatus for automatically adjusting track balance for accurate pickup of light reflected from an optical disc such as a compact disc. According to the present invention, by applying the probability theory to the track control, it is possible to output a more accurate and precise track control signal for accurate position control of the optical pickup, so that the track of the initial track in an optical disc player such as a compact disc Search and track tracking can be performed more precisely.

Description

Automatic adjustment of track balance on optical disc

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for automatically adjusting track balance of an optical disc, and more particularly, in an apparatus for automatically adjusting track balance for accurate pickup of light reflected from an optical disc such as a compact disc. The present invention relates to a method for automatically adjusting track balance of an optical disc to enable adjustment.

In general, optical discs include compact discs (CDs), write once read many (WORMs), erasable optical discs (Erasable Optical Discs), and the like. There is a track which is an area, and there is also an optical pickup apparatus which is a key component of an optical disc player which injects laser light into the track of the optical disc and picks up the reflected light.

For example, in the case of playing with an optical disc player such as the compact disc, the difficulty encountered by the optical disc player is to find a track having various information embedded on the surface of the optical disc, and to track the track corresponding to a continuously rotating disc. It is to track without missing.

In the previous optical disc players, the time constant value for tracking tracks was set by using a variable resistor, which can be applied to a standard disc having a good surface condition of the disc. If the disc is not good, there is a problem that can not be read because the information is impossible to play.

In order to solve such a problem of the conventional optical disc player, a method has been developed so that the time constant of each individual disc can be easily adjusted. One of the conventional methods will be described below.

5 is a flowchart showing a track balance automatic adjustment method of a conventional optical disc, and FIG. 6 is a state diagram of an output signal of the signal processing and track control unit of FIG. 5.

5 and 6, a configuration of a track balance automatic adjustment device of a conventional optical disk includes a track center detection sensor that senses light reflected from a track of a disk, and a sensing signal from the sensor. And a main control section for outputting a track control signal to the signal processing and track control section on the basis of an output signal from the signal processing and track control section.

The automatic track balance adjustment method of the optical disk configured as described above determines whether the output signal from the signal processing and track control unit is high (step 51), and if it is high, it is high for 5 msec from this time. If it is not kept high (step 52), change the track adjustment value (step 54), while if it is kept high, The value is fixed (step 53), and after step 53 or step 54, the process returns to the beginning and proceeds again.

The problem with this conventional method is to determine if it remains high for 5 msec, since this is a good track trace of the disc but the surface state may drop instantaneously due to a bad light. The method has a problem that the accuracy of track tracking or track search is inferior.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and therefore, an object of the present invention is to provide an apparatus for automatically adjusting a track balance for accurate pickup of light reflected from an optical disk such as a compact disk. The present invention provides a method for automatically adjusting track balance of an optical disk to enable automatic adjustment of precise track balance.

1 is a block diagram of an apparatus for automatically adjusting track balance of an optical disc for carrying out the present invention.

2 is a block diagram of a light receiving sensor of the optical pickup device required for the description of the present invention.

3 is a flowchart showing a method for automatically adjusting track balance of an optical disc according to the present invention.

4 is a state diagram of an output signal of the signal processing and track control unit of FIG. 3.

5 is a flowchart showing a track balance automatic adjustment method of a conventional optical disk.

6 is a state diagram of an output signal of the signal processing and track control unit of FIG. 5.

Explanation of symbols on the main parts of the drawings

10: light receiving sensor 11: information detection sensor

13,15: track center detection sensor 20: signal processing and track control unit

30: subject fisherman

As a technical means for achieving the above object of the present invention, the method of the present invention is a track center detection sensor for sensing the light reflected from the track of the optical disk, and processing the sensing signal from the sensor, and correct the disk A main processing unit for controlling a track search and track tracking, and outputting a track control signal Stc to the signal processing and track control unit based on an output signal (I state signal) from the signal processing and track control unit. A track balance automatic adjustment method in an automatic track balance adjustment apparatus for an optical disc, comprising: a first step of setting an initial track adjustment value based on experimental data; A second step of determining whether the output signal (I state signal) from the signal processing and track control unit is high at least once for several tens of milliseconds (10 ^-2 seconds); A third step of counting up if the signal is high for several tens of msec (10 ^-3 seconds) and then counting up only when the signal is high in the second step; A fourth step of calculating a percentage (%) in the high state in total using the total count number and the counter-up value; A fifth step of determining whether the calculated percentage (%) is equal to or greater than a good determination criterion; A sixth step of fixing the track adjustment value and returning to the first time when it is determined to be equal to or greater than the good determination criterion in the fifth step; A seventh step of changing and resetting the track adjustment value when the high is not detected in the second step or when it is not equal to or greater than the good determination criterion in the fifth step; Characterized in that made.

Hereinafter, a configuration of an apparatus for performing the track balance automatic adjustment method of an optical disk according to the present invention will be described with reference to the accompanying drawings.

1 is a block diagram of a track balance automatic adjustment device of an optical disk for carrying out the present invention, Figure 2 is a block diagram of a light receiving sensor of the optical pickup device required for the description of the present invention, Figures 1 and 2 In the apparatus for performing the automatic track balance adjustment method of the optical disk according to the present invention, the optical sensor 10 included in the optical pickup device is a sensor for sensing the laser light reflected from the disk, which is a track on the optical disk An information detection sensor 11 located at the center to sense the laser light reflected accurately from the groove of the liver, and from the information detection sensor 11 located at the center by slightly moving away from the correct track. It consists of track center detection sensors 13 and 15 for sensing the laser light which is shifted left and right or up and down.

In FIG. 1, the signal processing and track control unit 20 performs two functions. The first function is a function of processing a sensing signal from the track center detection sensors 13 and 15. The function is a function of controlling track search and track tracking in accordance with the track control signal Stc from the main control unit.

The first function of the signal processing and track control unit 20 outputs a signal having a high state and a low state through an amplification process, a subtraction comparison, a low pass, and a window comparison operation, respectively. The output signal (I state signal) becomes high when the strengths of the two sensed signals are the same, that is, the position where the light receiving sensor is capable of accurate information sensing, while the intensity of the two sensed signals is not the same. If not, that is, if the light receiving sensor is not in a position where accurate information sensing is possible, the output signal has a high state and a low state according to the position of the track groove and the light receiving sensor on the laser and the disk (I state signal). It is a signal processing function that outputs.

The main controller 30 of FIG. 1 determines whether or not the track is adjusted based on the signal processing and the output signal (I state signal) from the track control unit 20, and then outputs the track control signal Stc according to the determination result. Signal processing and outputting to the track control unit 20.

3 is a flowchart showing a method for automatically adjusting track balance of an optical disc according to the present invention, and FIG. 4 is a state diagram of an output signal of the signal processing and track control unit of FIG. 3.

The operation of the present invention configured as described above will be described in detail below with reference to the accompanying drawings.

Before explaining the method of automatically adjusting the track balance of the optical disk according to the present invention with reference to Figs. 1 to 4, the brief overall operation of the apparatus for performing the present invention will be described first.

First, in order to sense whether or not the optical pickup device (not shown) is slightly deviated from the position where the laser light incident from the laser picks up the laser light reflected from the track groove in which the information is stored on the disk. The illustrated track center detection sensors 13 and 15 sense the reflected laser light and provide it to the signal processing and track control unit 20.

The signal processing and track control unit is a circuit block that simultaneously performs a digital signal processing (DSP) function and a sub signal processing (SSP) function, which amplifies two sensing signals from the sensors 13 and 15, respectively, and then amplifies them. After subtracting the subtracted comparison signal, the subtracted signal is low-passed, and a signal having a high state and a low state (I state signal) is passed through the window comparison operation. Output to the port.

The main controller 30 transfers the track control signal Stc according to the method of the present invention to the signal processing and track control unit 20 based on the signal processing and the output signal (I state signal) of the track control unit 20. The signal processing and track control unit 20 controls the position of the optical pickup device to a position for accurate pickup of track information according to the track control signal Stc. A track balance automatic adjustment method of the optical disc made by the main controller 30 which outputs the track control signal Stc based on the output signal (I state signal) of 20) will be described.

Referring to FIG. 3, first, in the first step 31, the initial track adjustment value is set based on experimental data, and in the second step 32, the output signal I from the signal processing and track control unit 20 is set. It is determined whether the status signal) is high at least once during several tens of msec (10 ^-2 seconds). In a preferred embodiment of the present invention, tens of msec (10 ^-2 seconds) of the second step 32 is 40 msec. (10 ^-2 seconds).

Next, in the third step 33, if a high signal is detected in the second step 32, hundreds of times are checked for high for several tens of msec (10 ^-3 seconds) and then high. Counts up only, but in the preferred embodiment of the present invention, tens of milliseconds (10 ^-3 seconds) in the third step (33), as shown in Figure 4, 50msec (10 ^-3 seconds) In order to improve the accuracy and simplify the signal processing, the number of checks is set to 100 or more.

In the fourth step 34, the percentage (%) that is high in the overall state is calculated by using the total count and the counter-up value. In the fifth step (35), the calculated percentage (%) is determined to be good. In the preferred embodiment of the present invention, the good decision criterion in the fifth step 35 is set to 60%.

In the sixth step 36, if it is determined to be equal to or greater than the good determination criterion in the fifth step 35, the track adjustment value is fixed and returned to the beginning, and in the seventh step 37, the high ( High) is not detected, or if it is not equal to or greater than the good judgment criterion in the fifth step 35, the track adjustment value is changed and reset, and the process returns to the beginning.

According to the present invention as described above, by applying the probability theory to the track control, it is possible to output a more accurate and precise track control signal for accurate position control of the optical pickup. Searches and track tracking can be performed more precisely.

According to the present invention as described above, in the apparatus for automatically adjusting the track balance for accurate pickup of the light reflected from the optical disk, such as a compact disk, the effect of enabling more precise control of the track balance is possible. It is.

The above description is only a description of one embodiment of the present invention, the present invention is capable of various changes and modifications within the scope of the configuration.

Claims (4)

Track center detection sensors 13 and 15 for sensing light reflected from the tracks of the optical disc, and sensing signals from the sensors 13 and 15, and signal processing for controlling accurate track search and track tracking of the disc. And a main controller for outputting a track control signal Stc to the signal processing and track control unit 20 based on the track control unit 20 and the output signal (I state signal) from the signal processing and track control unit 20. A track balance automatic adjustment method in a track balance automatic adjustment device for an optical disk comprising (30), A first step 31 of setting an initial track adjustment value based on experimental data; A second step (32) of determining whether the output signal (I state signal) from the signal processing and track control unit (20) is high at least once for several tens of milliseconds (10 ^-2 seconds); If a high signal is detected in the second step 32, a checkup is made hundreds of times for several tens of msec (10 ^-3 seconds), and counts up only when it is checked as high. Three stages 33; A fourth step (34) of calculating a percentage (%) in the high state in total using the total count number and the counter-up value; A fifth step (35) of determining whether the calculated percentage (%) is equal to or greater than a good determination criterion; A sixth step 36 of fixing the track adjustment value and returning to the first time when it is determined to be equal to or greater than the good determination criterion in the fifth step 35; If no high is detected in the second step 32 or if it is not greater than or equal to the good determination criterion in the fifth step 35, the seventh step of changing the track adjustment value to reset and returning to the beginning (37); Track balance automatic adjustment method of the optical disk, characterized in that consisting of. 2. The method according to claim 1, wherein in the second step 32, whether the output signal (I state signal) from the signal processing and track control unit 20 is high at least once for 40 msec (10 ^-2 seconds). A track balance automatic adjustment method of an optical disc, characterized in that the judgment. The method of claim 1, wherein the third step 33 checks whether the signal is high for 50 msec (10 ^-3 seconds) at least 100 times when a signal of high in the second step 32 is detected. A track balance automatic adjustment method of an optical disc, characterized by counting up only when it is checked as high afterward. The method of claim 1, wherein the good judgment standard in the fifth step (35) is 60%.