KR100513336B1 - Method for controlling beginning point of optical pick-up - Google Patents

Abstract

The present invention relates to an initial position control method of an optical pickup for moving an optical pickup to an initial position of an optical disk for servo tuning, comprising: a first step of performing a focus search operation in an on state of an internal laser diode in the optical pickup; A second step of moving the optical pickup to an initial position (innermost circumference) of the optical disc while the focus search operation is performed; A third step of determining whether the initial position of the optical pickup is moved based on an RF DC sum signal obtained from the reflection signal with respect to the optical disk during the movement of the optical pickup; And a fourth step of performing a servo tuning operation when it is determined that the optical pickup has moved to the initial position, so that the optical pickup is performed by using a reflected signal to the optical disk without separately providing a limit switch. Since it can be moved to the initial position (innermost), it is possible to reduce the cost and volume of the optical disk device, and it is a very useful invention that can determine whether the optical disk is inserted or not and the type of the optical disk.

Description

Method for controlling initial position of optical pickup {Method for controlling beginning point of optical pick-up}

The present invention relates to an initial position control method of an optical pickup for moving an optical pickup to an initial position of an optical disk for servo tuning.

1 shows a configuration of a general optical disc apparatus (DVD Player), which includes an optical pickup 20 for reading a recording signal from an optical disc (DVD) 10; A spindle motor 21 for rotating the optical disc 10; A sled motor 22 which drives the optical pickup 20 to rotate; A limit switch 23 for outputting a low signal L when the optical pickup 20 moves to the innermost circumference of the optical disc 10; An R / F unit 30 for filtering the signal output by the optical pickup 20 to output a binary signal; A digital signal processor (40) for restoring and outputting the binary signal to original data with its clock synchronized with the binary signal; An amplifier decoder 50 for decoding and outputting the restored output data by using a predetermined MPEG method; A motor drive unit 60 for rotating the optical disc 10 and the optical pickup 20 by applying an appropriate driving voltage to the spindle motor 21 and the sled motor 22; And a microcomputer 70 for determining a current position of the optical pickup 20 based on the output signal of the limit switch 23 and performing a servo tuning operation.

In general, in the optical disk apparatus as shown in FIG. 1, when the optical disk 10 is inserted and mounted, the microcomputer 70 performs a servo tuning operation for reproducing the optical disk 10. In this case, the microcomputer 70 performs the optical pickup. 20 is positioned at the innermost circumference (initial position) on the optical disc 10, and then the servo tuning operation is performed. However, since the current position of the optical pickup 20 is not known before the optical disc 10 is reproduced, the microcomputer 70 first moves the optical pickup 20 to the initial position of the optical disc 10 before the servo tuning operation. This will be described in more detail as follows.

First, when the optical disc 10 is inserted and mounted, the microcomputer 70 applies an appropriate driving voltage to the sled motor 22 to move the optical pickup 20 to an initial position (innermost circumference) of the optical disc 10. In this case, the limit switch 23 outputs an 'L' signal when the optical pickup 20 is located at the innermost circumference of the optical disc 10, so that the microcomputer 70 receives the optical pickup ( During the movement of 20, the output signal of the limit switch 23 is continuously checked to determine whether the optical pickup 20 moves inwardly.

In this way, when it is determined that the optical pickup 20 has moved to the innermost circumference, the microcomputer 70 performs a predetermined servo tuning operation.

However, in the related art, since a separate limit switch must be provided to determine the innermost movement of the optical pickup 20 as described above, there is a problem of causing a price increase of the apparatus.

Accordingly, the present invention has been made to solve the above problems, and provides an initial position control method of an optical pickup for moving an optical pickup to an initial position on an optical disk for servo tuning without a separate configuration such as a limit switch. The purpose is.

According to an aspect of the present invention, there is provided a method of controlling an initial position of an optical pickup, the method including: a first step of performing a focus search operation in an on state of an internal laser diode of an optical pickup; A second step of moving the optical pickup to an initial position (innermost circumference) of the optical disc while the focus search operation is performed; A third step of determining whether the initial position of the optical pickup is moved based on an RF DC sum signal obtained from the reflection signal with respect to the optical disk during the movement of the optical pickup; And a fourth step of performing a servo tuning operation when it is determined that the optical pickup has moved to the initial position.

Hereinafter, a preferred embodiment of an initial position control method of an optical pickup according to the present invention will be described with reference to the accompanying drawings.

FIG. 2 illustrates a configuration of an optical disc apparatus (DVD Player) in which an initial position control method of an optical pickup according to the present invention is implemented. The configuration is the same as that of FIG. 1, except that the limit switch 23 of FIG. 1 is removed. The operation of the microcomputer 70 is somewhat different. On the other hand, the optical pickup 20 of the optical disk apparatus configured as described above receives a reflected number of the optical disk 10 and converts it into an electrical signal and outputs the electrical signal. It comprises a photodiode composed of photoelectric conversion elements (A, B, C, D cells).

3 is a flow chart illustrating a preferred embodiment of the method for controlling an initial position of an optical pickup according to the present invention. Hereinafter, the control method of FIG. 3 according to the present invention will be described in detail with reference to the configuration of FIG. 2.

First, when the optical disc (DVD) 10 is inserted (S10), the microcomputer 70 applies a proper voltage to the LD (Laser Diode) of the optical pickup 20 through the R / F unit 30. The LD is turned on, and a focus search operation is performed to cause the objective lens of the optical pickup 20 to focus on the signal surface of the optical disk 10 (S11).

Subsequently, the microcomputer 70 performs an initial position control operation to perform a servo tuning operation according to the insertion and mounting of the optical disc 10. For this purpose, the microcomputer 70 uses the digital signal processor 40 to drive the motor drive. In the state of holding the focus drive signal output to the unit 60, the optical pickup 20 is moved in the innermost direction, the initial position on the optical disc 10 (S12). 10) When the optical pickup 20 is inserted and mounted, the optical pickup 20 is located at a point B set between the innermost and outermost circumferences of the optical disc 10, wherein the point B is based on a 12 cm optical disc. If the 8cm optical disc is inserted and mounted, the microcomputer 70 places the optical pickup 20 at the point C set between the innermost and outermost circumferences of the 8cm optical disc as shown in FIG. It is good.

Therefore, the microcomputer 70 applies the appropriate driving voltage to the sled motor 22 through the motor drive unit 60 in consideration of this, and causes the optical pick-up 20 to be first generated on the optical disk 10 (12cm). The microcomputer 70 moves to the innermost point A from the position B, and the microcomputer 70 moves the optical pickup 20 based on the reflected signal to the optical disk 10 during the movement of the optical pickup 20. It is determined whether the current position of the innermost circumference of the optical disc 10 (S13), the process of determining the inner circumference of the microcomputer 70 using the reflected signal in detail as follows.

During the movement of the optical pickup 20, the microcomputer 70 is a PI (Pull In Error) signal (or AS signal) that the R / F unit 30 outputs from the reflection signal to the optical disk 10 The PI signal is a value obtained by converting the optical signal output from the optical pickup 20 into a DC value by the R / F unit 30, and the RF DC sum signal (photo). The sum of the diodes A, B, C, D, i.e. A + B + C + D).

When the optical pickup 20 is positioned at the innermost circumference of the optical disc 10 in the on state of the LD, the level of the PI signal (or AS signal) falls below an appropriate level, so that the microcomputer 70 detects the detection. It is possible to determine whether the innermost movement of the optical pickup 20 is based on the identified PI signal.

In this way, when it is determined that the optical pickup 20 has moved to the innermost circumference of the optical disc 10 (S20), the microcomputer 70 stops the initial position control operation and inserts and inserts the optical disc 10. By performing the servo tuning operation according to operation S21, the normal playback operation of the optical disc 10 can be performed thereafter.

In the above embodiment, since the reflection signal is not output when the optical disc 10 is not inserted and mounted, the microcomputer 70 may determine whether the optical disc 10 is inserted or not.

In addition, according to the present invention, the type of the optical disk 10 inserted and mounted can also be determined, which means that the microcomputer 70 is located at the initial position (point B) of the optical pickup 20 according to the insertion and mounting of the optical disk 10. In this case, if the inserted optical disc 10 is not a 12 cm optical disc, the RF signal is not detected at the point B, and the microcomputer 70 performs the RF search when the focus search operation is performed. If not detected, the inserted optical disc 10 is identified as an 8 cm optical disc, and the optical pickup 20 is moved to an initial position (point C) set based on the 8 cm optical disc, and the focus search operation is performed. After performing the focus search operation, as described above, the optical pickup 20 is moved to the point A which is the innermost circumference of the optical disc 10 (8 cm).

As mentioned above, preferred embodiments of the present invention are disclosed for the purpose of illustration, and those skilled in the art can improve and change various other embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. , Replacement or addition would be possible.

In the initial position control method of the optical pickup according to the present invention, the optical pickup can be moved to the initial position (the innermost circumference) of the optical disk by using a reflected signal to the optical disk without providing a limit switch. The cost and volume of the device can be reduced, and the present invention is a very useful invention that can determine whether the optical disc is inserted and mounted, and even the type of the optical disc.

1 shows a configuration of a general optical disc apparatus (DVD Player),

2 is a block diagram of an optical disc apparatus (DVD Player) in which an initial position control method of an optical pickup according to the present invention is implemented.

Figure 3 shows the flow of a preferred embodiment of the initial position control method of the optical pickup according to the present invention,

4 shows an example of an initial position B before an optical pickup and an initial position A to be moved.

※ Explanation of code for main part of drawing

10: optical disc 20: optical pickup

21: spindle motor 22: sled motor

23: limit switch 30: R / F unit

40: digital signal processor 50: amplifier decoder

60: motor drive unit 70: microcomputer

Claims (5)

A first step of performing a focus search operation in an on state of an optical pickup internal laser diode; A second step of moving the optical pickup to an initial position (innermost circumference) of the optical disc while the focus search operation is performed; A third step of determining whether the initial position of the optical pickup is moved based on an RF DC sum signal obtained from the reflection signal with respect to the optical disk during the movement of the optical pickup; And And a fourth step of performing a servo tuning operation when determining that the optical pickup has moved to the initial position. The method of claim 1, And the second step is performed in a holding state of the focus drive signal. delete The method of claim 1, The first step may include: checking whether a high frequency reproduction signal is detected at an initial position of the optical pickup for the optical disk when the optical disk is inserted and mounted; Determining a type of the optical disc according to the detection; Moving the optical pickup to an initial position set according to the type of the determined optical disc according to the type of the determined optical disc; And And performing a focus search operation at the moved position. delete