KR20050107062A - Method for controlling a focus offset in a optical disc driver - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for adjusting a focus offset voltage in an optical disk device, and more particularly, to a method for setting a focus offset voltage in an optical disk device including an optical pickup unit having a nonvolatile memory. Reading information; determining whether a focus offset voltage corresponding to the optical disk information is stored in the nonvolatile memory; and if the focus offset voltage is not stored in the nonvolatile memory, the loaded optical disk. Setting a focus offset voltage with respect to the nonvolatile memory, and performing an operation according to a user's request using the focus offset voltage stored in the nonvolatile memory.

As described above, the present invention stores the focus offset voltage corresponding to the optical disk in the nonvolatile memory in the optical pickup unit, and then performs an operation according to the user's request by using the focus offset voltage stored in the nonvolatile memory when the optical disk is loaded. Therefore, the loading time of the optical disk can be shortened.

Description

METHOD FOR CONTROLLING A FOCUS OFFSET IN A OPTICAL DISC DRIVER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for driving an optical disk device, and more particularly, to a method for adjusting focus offset in an optical disk device.

1 illustrates a configuration of a general optical disk device, wherein the optical disk device is an optical pickup for reading out a signal recorded on an optical disk 1 such as a CD or a digital versatile disc (DVD). The filter 2, which adds or subtracts electrical signals read by the optical pickup unit 2 and outputs an RF signal, that is, a focus error signal and a tracking error signal, digitally filters the filtered RF signal. Digital signal processing section 4 for restoring the data to reproduce signal processing, sled motor 9 for moving optical pickup section 2, spindle motor 10 for rotating optical disk 1, sled motor 9 ), A driver 8 for driving rotation of the spindle motor 10, a servo unit 5 for controlling the operation of the optical pickup unit 2 and the driver 8, a servo unit 5, and a digital signal processing unit 4. Data required for the control operation of the microcomputer 6 and the microcomputer 6 for controlling the operation of A memory (7).

On the other hand, the optical pickup unit 2 emits light from the light emitting element 21, such as a laser diode, which emits light in order to read out a signal recorded on the recording surface of the optical disk 1, as shown in FIG. By a collimator lens 22 for converting the converted light into parallel light, a focus lens 24 and a collimator lens 22 for collecting the converted parallel light to form a beam spot on the recording surface of the optical disc 1 90 degree angle by the half mirror 23 and the half mirror 23 which transmit the converted parallel light and reflect the semi-reflected light reflected by the recording surface of the optical disk 1 and passing through the focus lens 24 at a 90 degree angle. And a condenser lens 25 for condensing the reflected light reflected to form a beam spot on the light receiving element 26 such as a photodiode.

In addition, the optical pickup section 2 is provided with an electrically non-volatile memory EEPROM (Electrically Erasable Programmable Read-Only Memory), where information about the optical disk 1 and a recording power suitable for the optical disk 1 are set. Optimal Power Control (OPC) information is stored.

The process of adjusting the focus offset by the optical disk device having the above configuration is as follows.

First, when the optical disk 1 is inserted and seated in a tray (not shown) provided in an optical disk device such as a disk driver, the microcomputer 6 controls the operation of the servo unit 5 to control the optical pickup unit. The focus lens 24 provided in (2) is moved upward in the optical disk direction at a predetermined initial lower position.

On the other hand, in the optical pickup section 2, as shown in Fig. 2, a light emitting element 21 such as a laser diode provided in the optical pickup section 2 for reading out a signal recorded on the recording surface of the optical disk 1; In this case, the beam spot reflected by the recording surface of the optical disk 1 is converted into an electrical signal by the light receiving element 26 and outputted as an electric signal, and is referred to a focus error signal (FE), that is, a clockwise direction. The sum (A + C) of the electrical signals converted and output by the A and C regions of the light-receiving element divided into A, B, C, and D regions into four areas, and the electrical signals converted and output by the B and D regions. The focus error signal FE = (A + C)-(B + D), which is the difference signal between the sums B + D, is detected and the value of the focus lens 24 is zero when the value becomes zero. The voltage applied to the actuator (not shown) for variably shifting the position is set to the poker voltage.

Subsequently, while finely moving the position of the focus lens in the vertical direction, an RF signal that is the sum (A + B + C + D) of the electrical signals converted and output by the light receiving element 26 is detected, and the RF output value thereof is maximum. When the focus offset voltage is detected, the focus offset voltage is set. The focus offset voltage is set to a difference value between the voltage applied to the actuator at the point when the focus error signal becomes zero and the voltage applied to the actuator at the point when the RF signal is maximized. .

After the focus voltage and the focus offset voltage are set, the lead-in area recorded on the inner circumferential surface of the optical disc 1 is searched to obtain TOC (Table Of Contents) information indicating the type of disk, the recording state, and the like. After reading, it is stored in the memory 7.

Subsequently, when receiving an operation command from a connected device such as a personal computer connected through a key input or a digital interface of the user, the focus offset voltage stored in the memory 7 is applied to perform the operation in the normal focusing operation state. do.

However, since the above-described focus voltage and focus offset voltage setting processes are performed for all disks, the initial loading time takes a long time.

SUMMARY OF THE INVENTION An object of the present invention is to solve such a problem of the prior art, and after storing the focus offset voltage corresponding to each disk in the EEPROM embedded in the optical pickup unit, the stored focus offset voltage is stored the next time the same disk is loaded. By using the above, an object of the present invention is to provide a focus offset adjusting method in an optical disk device that can shorten the initial loading time.

In order to achieve the above object, the present invention provides a method for setting a focus offset voltage in an optical disk apparatus having an optical pickup having a nonvolatile memory, the method comprising: reading information of the optical disk according to loading of the optical disk; Determining whether a focus offset voltage corresponding to the optical disk information is stored in the nonvolatile memory; and when the focus offset voltage is not stored in the nonvolatile memory, the loaded optical disk Setting a focus offset voltage with respect to the nonvolatile memory, and if the focus offset voltage is stored in the nonvolatile memory, using the focus offset voltage stored in the nonvolatile memory. Performing the operation according to the request The.

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

3 is a flowchart illustrating a process of setting a focus offset voltage using a nonvolatile memory according to the present invention.

The optical disk device for explaining the present invention has the same configuration as the conventional optical disk device shown in Figs. 1 and 2, and in particular, the focus offset voltage for each optical disk in an EEPROM, which is a nonvolatile memory installed in the optical pickup section 2, for example. After reading the data, the data recorded on the optical disc are read.

As shown in FIG. 3, when the optical disk 1 is inserted and seated in a tray provided in an optical disk device such as a disk driver (S300), the microcomputer 6 controls the operation of the servo unit 5 to pick up the optical disk. The focus lens 24 provided in the unit 2 is moved upward in the direction of the optical disc 1 at a predetermined initial lower position (S302).

Thereafter, the lead-in area recorded on the inner circumferential surface of the optical disc 1 is searched to read TOC information indicating the type of the optical disc 1 (S304), and a focus voltage corresponding to the TOC information of the optical disc 1 is obtained. It is determined whether the focus offset voltage is stored in the EEPROM (S306).

As a result of the determination in step S306, when the focus voltage and the focus offset voltage are not stored in the EEPROM, the optical pickup unit 2 is the same as the laser diode which emits light to read out the signal recorded on the recording surface of the optical disc 1; The light emitting element 21 is made to emit light, in which the beam spot reflected by the recording surface of the optical disc 1 is converted into an electrical signal by the light receiving receiver 26 and outputted as an electric signal, namely a focus error signal (FE: Focus Error) The sum of the electric signals converted by the A and C areas of the light-receiving element divided into A, B, C and D areas on the basis of the clockwise direction (A + C), and the B and D areas. Detects the focus error signal, which is the difference signal between the sum of the electric signals (B + D), and moves the position of the focus lens 24 to the actuator until the value becomes zero, and is applied to the actuator at the zero point.It sets the voltage of the focus voltage. Then, while finely shifting the position of the focus lens 24 in the vertical direction, an RF signal that is the sum (A + B + C + D) of the electrical signals converted and output by the light receiving element 26 is detected and the RF output value The focus offset voltage at this point of maximum is detected (S308).

The microcomputer 6 stores the focus offset voltage detected through the above process together with the optical disk 1 information in the EEPROM in the optical pickup unit 2 (S310), and then proceeds to step S320.

As a result of the determination in step S306, when the focus voltage and the focus offset voltage are stored in the EEPROM, the microcomputer 6 checks whether an operation command is received from a connected device such as a personal computer connected or connected via a user's key input or a digital interface. It is determined (S312).

As a result of the determination in step S312, when the operation command is received, the microcomputer 6 extracts and applies the focus offset voltage stored in the EEPROM in the optical pickup unit 2 to perform the operation corresponding to the operation command in the normal focusing phase. (S320).

On the other hand, even when a predetermined time (N seconds) set in advance (S314) has elapsed, if no user's key input or operation command is received, the device enters the standby mode (S316), and the user's key input or operation command When the standby mode is released (S318), as described above, the focus offset voltage stored in the EEPROM is extracted and applied to perform an operation corresponding to an operation command in a normal focusing operation state (S320).

According to the present invention, if the same optical disc is loaded after storing the focusing offset voltage corresponding to the optical disc in the EEPROM of the optical pickup unit, the focusing offset voltage setting process can be omitted, thereby reducing the loading time.

As described above, the present invention stores the focus offset voltage corresponding to the optical disk in the nonvolatile memory in the optical pickup unit, and then uses the focus offset voltage stored in the nonvolatile memory when loading the optical disk to perform an operation according to a user's request. By doing this, there is an effect that the loading time of the optical disc can be shortened.

In the foregoing description of the present invention, only one embodiment has been described, but it is obvious that the technology of the present invention can be easily modified by those skilled in the art. Such modified embodiments should be included in the technical spirit described in the claims of the present invention.

1 is a block diagram showing a general optical disk device,

2 illustrates a configuration of a general optical pickup unit,

3 is a flowchart illustrating a focus offset adjustment process in the optical disk apparatus according to the present invention.

<Description of the code | symbol about the principal part of drawing>

1 optical disc 2 optical pickup

3: filter forming part 4: digital signal processing part

5: Servo unit 6: Microcomputer

7: memory 8: driver

9: sled motor 10: spindle motor

21 light emitting element 22 collimator lens

23: half mirror 24: focus lens

25 condensing lens 26 light receiving element

Claims (1)

A focus offset voltage setting method in an optical disk apparatus having an optical pickup section having a nonvolatile memory, comprising: Reading information on the optical disc in accordance with loading of the optical disc; Determining whether a focus offset voltage corresponding to the optical disc information is stored in the nonvolatile memory; When the focus offset voltage is not stored in the nonvolatile memory as a result of the determination, setting a focus offset voltage for the loaded optical disk and storing it in the nonvolatile memory; If the focus offset voltage is stored in the nonvolatile memory, performing an operation according to a user's request by using the focus offset voltage stored in the nonvolatile memory. Focus offset adjustment method in an optical disk device comprising a.