KR20060080709A - Method for measuring tilt of optical disc - Google Patents

Abstract

The present invention relates to a tilt measuring method of an optical disc. For example, when an optical disc is inserted and seated in various types of optical disc devices such as a DVD-Player, the laser emits light at the first inner circumference of the optical disc. In addition to receiving the light, the time t1 required to emit and receive the light is detected, and afterwards, the time t2 required to emit and receive the laser light is emitted and received at the second peripheral point of the optical disk. After the detection, the amount of tilt between the inner and outer circumferences of the optical disc is measured based on the difference value (t1-t2) of the detected times, so that the amount of tilt of the optical disc can be easily measured without using a tilt detection sensor. It is also possible to generate a tilt offset (Tilt_Offset) value proportional to the time difference value (t1-t2), and to apply the tilt servo operation, the device Doemeun can be simplified, of course, it will be very useful inventions that can be performed more accurately the tilt servo control.

Tilt amount, time difference, optical disc, tilt servo, tilt offset, optical disc device, tilt detection sensor

Description

Tilt measurement method of optical disc {Method for measuring tilt of optical disc}             

1 and 2 illustrate an example of measuring a tilt of an optical disc by using a general tilt detection sensor.

3 illustrates a tilt measurement process of an optical disk according to the present invention,

4 illustrates a configuration of an optical disk device to which the present invention is applied.

5 is a flowchart illustrating an operation of a tilt measuring method of an optical disk according to the present invention.

※ Explanation of code for main part of drawing

10 optical disc 20 tilt detection sensor

31: objective lens 32: light emitting element

33: half mirror 34: light receiving element

35: LD driver 36: RF detector

37: microcomputer 38: servo unit

The present invention relates to a tilt measuring method of an optical disc, for example, in various types of optical disc devices such as a DVD-Player, the amount of tilt between the inner circumference and the outer circumference of the optical disc inserted into the device more efficiently The present invention relates to a tilt measurement method of an optical disk for easy measurement.

Optical discs that are widely used and widely used include CD (CD) series and DVD (DVD) series, and Blu-ray Disc (BD) series, which are high density optical discs, is expected to be developed and released in the future. The CD series includes a CD-ROM for playback only, a CD-R that can be recorded once, a CD-RW that can be rewritten, and the like. The DVD series includes a DVD-ROM for playback and a DVD that can be written once. -R, DVD + R, rewritable DVD-RW, DVD + RW and DVD-RAM.

On the other hand, in the case of the DVD, the distance between the track pitches is smaller than that of the CD and the margin for the optical refractive index is not sufficient, so the objective lens included in the optical pickup is included. It is necessary to tilt control (Tilt Control) operation to variably adjust both sides of the.

In addition, in an optical disk device such as a DVD player or the like, when an optical disk such as a DVD is inserted and seated in the device, the focus and tracking servo operations are performed, and the tilt servo control operation that variably adjusts both sides of the objective lens is performed. As shown in FIG. 1, the tilt detection sensor 20 is used to detect the amount of tilt of the optical disc 10.

As shown in FIG. 2, the tilt detection sensor 20 includes a light emitting device 200 and first and second light receiving devices 201 and 202, and the first and second light receiving devices 201 and 202. ) Converts a light spot reflected by the optical disk 10 into an electrical signal, wherein a tilt error value is between the electrical signals converted and output from the first and second light receiving elements, respectively. Is a value obtained by dividing the difference value PD1-PD2 by the sum value PD1 + PD2 between the electrical signals converted and output from the first and second light receiving elements.

Accordingly, the DVD player performs a tilt servo control operation that variably adjusts the inclination of both sides of the objective lens so that the tilt error value detected by the tilt detection sensor is minimum, and gradually increases from the inner circumferential direction to the outer circumferential direction. Even if the tilt component exists on the optical disc, data can be read normally.

However, in the general optical disk device, since the separate tilt detection sensor is used to detect and measure the tilt amount of the optical disk as described above, the device is difficult to simplify, and the use of the tilt detection sensor makes it difficult to There is a problem that the manufacturing cost is increased.

Therefore, the present invention was created to solve the above problems, and for example, in various types of optical disc devices such as a DVD-Player, the tilt of the optical disc can be achieved without using a separate tilt detection sensor. It is an object of the present invention to provide a tilt measuring method of an optical disc in order to measure the amount easily and accurately.

Tilt measurement method of an optical disk according to the present invention for achieving the above object, a first step of emitting and receiving a laser at the first inner peripheral point of the optical disk, and detecting the time required for the light emission and light reception; Two steps of emitting and receiving a laser at a second peripheral point of the optical disk, and detecting a time required for emitting and receiving the laser; And measuring the amount of tilt between the inner circumference and the outer circumference of the optical disc based on the difference values of the detected times.

Hereinafter, a preferred embodiment of the tilt measurement method of the optical disk according to the present invention will be described in detail with reference to the accompanying drawings.

First, in the present invention, the tilt detection sensor 20 described above with reference to FIG. 2 is not used separately, but instead, as shown in FIG. 3, at the first peripheral point (Point # 1) of the optical disk, the laser is not used. Emits and receives light, and detects t1 time for emitting and receiving light, and then emits and receives a laser at the second outer point (Point # 2) of the optical disc, and emits and receives light. T2 time is detected.

The amount of tilt between the inner circumference and the outer circumference of the optical disc is simply measured based on the difference values t1-t2 of the detected times, respectively. In the optical disc apparatus to which the present invention is applied, FIG. As shown, the objective lens 31, the light emitting element 32, the half mirror 33, the light receiving element 34, the LD driver 35, the RF detection unit 36, the microcomputer 37, and the servo unit ( 38) and the like.

On the other hand, in the microcomputer 37, as shown in FIG. 5, when the optical disc 10 is inserted and seated in the apparatus (S10), the servo unit 38 is operated to control the point where the optical pickup accesses. In addition, the optical disk is moved to a first inner point (Point # 1) of the optical disk, and the laser is emitted and received at the first point (S11).

The t1 time required for the light emission and the light reception is measured. When the t1 time is measured (S12), after storing the t1 time value (S13), the servo unit 38 is operated and controlled. In addition to moving the point accessed by the optical pickup to a second outer point (Point # 2) of the optical disc, the laser light is emitted and received at the second point (S14).

In addition, the t2 time required to emit and receive light is measured, and when the t2 time is measured (S15), after storing the t2 time value (S16), the measured t1 time value and t2 time value, respectively By calculating the difference value (t1-t2) between them, the amount of tilt of the optical disc is calculated and measured (S17).

In addition, by generating a tilt offset (Tilt_Offset) value proportional to the difference value (t1-t2), and performing a tilt servo control operation for compensating the amount of tilt (S18), without using a tilt detection sensor separately, It is possible to easily measure the amount of tilt.

Meanwhile, the above-described tilt amount measurement operation may be performed immediately after the optical disc is inserted and seated in the device, or may be automatically performed immediately after a data read error occurs. Thus, the above-described preferred embodiment of the present invention It is disclosed for the purpose of illustration, those skilled in the art will be able to improve, change, replace or add other various embodiments within the spirit and scope of the present invention disclosed in the appended claims.

Tilt measuring method of the optical disk according to the present invention configured and made as described above, for example, when the optical disk is inserted and seated in various types of optical disk device such as a DVD-Player, etc. at the first inner peripheral point of the optical disk The time required for emitting and receiving the laser, and detecting the time t1 for emitting and receiving the laser light, and then for emitting and receiving the laser at the second peripheral point of the optical disk, and the time for emitting and receiving the laser light. After detecting (t2), the tilt amount of the optical disk is measured without using a tilt detection sensor separately by measuring the amount of tilt between the inner and outer circumferences of the optical disk based on the difference values t1-t2 of the detected times. The amount can be easily measured, and a tilt offset (Tilt_Offset) value which is proportional to the time difference value is generated, which is suitable for the tilt servo operation. In addition, it is a very useful invention that not only simplifies the apparatus but also makes it possible to perform the tilt servo control more accurately.

Claims (3)

A first step of emitting and receiving a laser at a first inner circumference of the optical disc, and detecting a time for emitting and receiving the laser; Two steps of emitting and receiving a laser at a second peripheral point of the optical disk, and detecting a time required for emitting and receiving the laser; And And measuring the amount of tilt between the inner circumference and the outer circumference of the optical disc, based on the detected values of the respective detected times. The method of claim 1, And generating a tilt offset (Tilt_Offset) value proportional to the difference value of each detected time, and performing a tilt servo operation. The method of claim 1, The tilt amount measuring operation is performed immediately after the optical disk is inserted and seated in the device, or automatically performed immediately after a data read error occurs.

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