KR20080067880A - Method for setting maximum rising position of optical pickup lens - Google Patents

Abstract

A method for setting a maximum rising position of an optical pickup lens is provided to prevent an optical pickup lens from colliding with an optical disc. A method for setting a maximum rising position of an optical pickup lens comprises a first step of detecting a record layer of an optical disc(10) by gradually lifting up an optical pickup lens from an initial position, and a second step of setting the position of the lens focused above the record layer to a maximum rising position. In the first step, while the optical pickup lens is being gradually lifted up from the initial position, a peak valve of a PE signal is detected to sequentially detect the cover layer and the record layer of the optical disc. In the second step, in case of setting the position of the lens to the maximum rising position, a focus drive signal is limited to a maximum focus drive signal.

Description

Method for setting maximum rising position of optical pickup lens

1 shows a configuration of a general optical disk device,

2 illustrates an embodiment of a general optical pickup actuator,

3 illustrates an embodiment in which a protective base and an optical disc of a general optical pickup collide with each other.

4 and 5 illustrate an embodiment of a maximum rising position setting method of an optical pickup lens according to the present invention.

※ Explanation of code for main part of drawing

10: optical disc 11: optical pickup

12 laser diode driver 13 current / voltage amplifier

14: spindle motor 15: spindle driver

16: focus / tracking sled driver 17: sled motor

18: recording laser diode control 19: RF amplifier

20 Encoder and Decoder 21 Host PC

22: OPC / RPC circuit 23: digital signal processor

24 microprocessor 25 audio circuit

26: L / R channel headphone connection

The present invention relates to a method for setting the maximum lift position of an optical pickup lens. For example, in an optical disc apparatus capable of reproducing various types of optical discs such as a CD or a DVD, it is optimal for an optical disc recording layer. The present invention relates to a method for setting the maximum lift position of an optical pickup lens for relatively variable setting of the maximum lift position of an optical pickup lens.

1 shows a configuration of a general optical disk device. For example, an optical disk drive connected to and connected to the host PC 21 includes an optical disk 10, an optical pickup 11, a laser diode driver 12, and a current. / Voltage amplifier 13, spindle motor 14, spindle driver 15, focus / tracking sled driver 16, sled motor 17, recording laser diode control 18, RF amplifier 19, Encoder and Decoder 20, OPC / ROPC Circuit 22, Digital Signal Processor 23, Microprocessor 24, Audio Circuit 25, and L / R Channel Headphone Connection 26 Etc. are comprised.

In addition, as shown in FIG. 2, the optical pickup 11 includes a magnet, a bobbin, a yoke, a focus coil, a tracking coil, and an object lens. An actuator composed of an objective lens, a wire spring, and a frame is moved in the horizontal / vertical direction to perform the focusing and tracking operation.

The optical disc 10 inserted into the optical disc apparatus is mounted on the spindle turn table and rotates at a high speed as shown in FIG. 3, and the actuator rotates the optical pickup lens Lens at an initial position. It is gradually raised so that the recording layer formed on the optical disc is focused, and then the data recorded on the recording layer is read and reproduced.

However, as shown in FIG. 3, when the optical disc seated on the spindle turntable is tilted, the protector base of the actuator collides with the optical disc rotating at high speed, and thus, between the optical pickup lens and the optical disc. The collision may cause problems such as damage to the optical pickup lens.

On the other hand, in order to prevent this, there is a way to limit the maximum pickup position of the optical pickup lens in advance to prevent the optical pickup lens from rising in the direction of the optical disk any more, in this case, the maximum rising position is set to a fixed value Therefore, there is a problem in that collision between the optical pickup lens and the optical disk occurs depending on the size of the surface vibration component of the optical disk.

Accordingly, the present invention has been created to solve the above problems, and for example, in an optical disc apparatus capable of reproducing various types of optical discs such as a CD or a DVD, a predetermined interval is greater than a recording layer of an optical disc. The position of the lens focused at a high position is set to the maximum raised position, and then the focus drive signal applied at that time is limited to the maximum focus drive signal, so that the maximum raised position of the optical pickup lens optimal for the recording layer for each optical disc It is an object of the present invention to provide a method for setting a maximum lift position of an optical pickup lens to enable relatively variable setting.

According to an aspect of the present invention, there is provided a method of setting a maximum lift position of an optical pickup lens, the method including: detecting a recording layer of an optical disc while gradually raising an optical pickup lens from an initial position; And setting a position of the lens focused at a predetermined interval higher than the recording layer to a maximum raised position.

In addition, the first step is to detect the peak value of the PE signal while gradually raising the optical pickup lens from the initial position, and sequentially detect the surface layer and the recording layer of the optical disc. When the position of the lens focused at a predetermined interval higher than the recording layer is set to the maximum rising position, the focus drive signal applied at that time is limited to the maximum focus drive signal.

Hereinafter, a preferred embodiment of the method for setting the maximum lift position of the optical pickup lens according to the present invention will be described in detail with reference to the accompanying drawings.

First, in the method of setting the maximum lift position of the optical pickup lens according to the present invention, when various types of optical discs, such as a CD or a DVD, are inserted into a device, a normal disc loading operation and a servo initial operation are performed. The recording layer of the optical disc is detected, but the position of the lens focused at a predetermined interval higher than the recording layer is variably set to the maximum raised position.

For example, as shown in FIG. 4, when a DVD (DVD) is inserted into the apparatus, in the microprocessor 24 described above with reference to FIG. 1, the spindle driver ( 15) and the focus / tracking sled driver 16 and the like, to gradually increase the position of the optical pickup lens at a preset initial position (eg, Lens Position Min).

In addition, a pull in error (PE) signal, which is a sum of an electrical signal photoelectrically converted by a photodiode, for example, a four-divided photodiode in the optical pickup, is monitored. For example, the type of the optical disc In the case of (DVD), since the recording layer on which data is recorded is 0.6 mm away from the surface layer, the signal of the first peak value is detected in the surface layer of the optical disk, and then after a predetermined time t1 has elapsed, the recording of the optical disk is performed. The peak signal of the second peak value in the layer is detected.

On the other hand, the microprocessor 24 checks the time interval between the first peak value and the second peak value, and if the time interval is 't1' corresponding to the DVD, the optical disc The type of is determined to be DVD.

In addition, the microprocessor 24 sets the position of the lens focused at a predetermined interval higher than the recording layer to the maximum position (Lens Position Max), in which the focus drive signal is applied. Since it is set and limited to the maximum focus drive signal, as shown in Fig. 4, the lens maximum rising value (e.g. DVD Sweep Value) is set appropriately for the DVD having a separation distance of 0.6 mm between the surface layer and the recording layer of the optical disk. This prevents the lens and the optical disc from colliding with each other.

On the other hand, as shown in Figure 5, when the CD (CD) is inserted into the device, in the microprocessor 24, through the digital signal processor 23 and the spindle driver 15 and the focus / tracking sled driver ( 16) and the like, the position of the optical pickup lens is gradually raised from a preset initial position (eg, Lens Position Min).

In addition, a pull in error (PE) signal, which is a sum of an electrical signal photoelectrically converted by a photodiode, for example, a quadrature photodiode in the optical pickup, is monitored, for example, the type of the optical disc In the case of (CD), since the recording layer on which data is recorded is 1.1 mm away from the surface layer, the signal of the first peak value is detected in the surface layer of the optical disc, and then a predetermined time (t2, e.g., t2> t1) is detected. After the elapse of time, the signal of the second peak value is detected in the recording layer of the optical disc.

On the other hand, the microprocessor 24 checks the time interval between the first peak value and the second peak value, and if the time interval is 't2' corresponding to the DVD, the optical disc The type of is determined to be a CD.

In addition, the microprocessor 24 sets the position of the lens focused at a predetermined interval higher than the recording layer to the maximum position (Lens Position Max), in which the focus drive signal is applied. As the maximum focus drive signal is set and limited, as shown in FIG. 5, the lens maximum rising value (e.g. CD sweep value) is set appropriately for a CD having a distance of 1.1 mm between the surface layer and the recording layer of the optical disk. This prevents the lens and the optical disc from colliding with each other.

Or more, preferred embodiments of the present invention described above, for the purpose of illustration, those skilled in the art, within the technical spirit and the technical scope of the present invention disclosed in the appended claims below, to further improve various other embodiments Changes, substitutions or additions will be possible.

The maximum rising position setting method of the optical pickup lens according to the present invention as described above, for example, in an optical disk device capable of playing various types of optical disk, such as CD (CD) or DVD (DVD), While gradually increasing from the initial position, the peak value of the PE signal is detected, the surface layer and the recording layer of the optical disc are sequentially detected, and the position of the lens focused at a predetermined interval higher than the recording layer, By setting the maximum rise position and then limiting the focus drive signal applied at that time to the maximum focus drive signal, the maximum rise position of the optical pickup lens optimal for the recording layer for each optical disc can be set relatively variably. It is a very useful invention that can prevent the lens and the optical disk from colliding more efficiently.

Claims (3)

Detecting a recording layer of the optical disc while gradually raising the optical pickup lens at an initial position; And And setting the position of the lens focused at a predetermined interval higher than the recording layer to a maximum raised position. The method of claim 1, In the first step, the peak value of the PE signal is detected while gradually raising the optical pickup lens at an initial position, and the surface layer and the recording layer of the optical disk are sequentially detected. How to set the maximum ascent position. The method of claim 1, In the second step, when the position of the lens focused at a predetermined interval higher than the recording layer is set to the maximum rising position, the focus drive signal applied at that time is limited to the maximum focus drive signal. How to set the maximum lift position of the pickup lens.

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