KR20160017487A - method for Auto power control and optical disc drive - Google Patents

Abstract

A disclosed automatic power control method of an optical pickup comprises the following steps of: detecting an operation current in correspondence to a reference temperature in a reference power level of a laser diode which is a light source and storing the operation current as a reference value; detecting the temperature of the laser diode when information about an optical disk is recorded or reproduced by using the laser diode; and comparing the value of the temperature with the reference temperature to adjust the operation current about the laser diode. Therefore, the method lowers costs of manufacturing an optical pickup.

Description

TECHNICAL FIELD The present invention relates to an optical power control method for an optical pickup,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an automatic power control method for an optical pickup, and more particularly, to an automatic power control method of an optical pickup by temperature and an optical disc drive using the method.

The optical pickup is used for recording or reproduction of optical-information storage media such as CD, DVD, BD, and the like, and is used for recording information on an optical disk or reproducing information therefrom.

Such an optical pickup includes a laser diode as a light source, and it is necessary to maintain an appropriate optical power for recording and reproducing accurate information, and in particular, it is necessary to use a write strategy Output control is required.

The output control in the conventional optical pickup is based on a monitor signal from a photodetector (FPD: Front Photo Detector).

It is desirable to reduce the number of components while maintaining the product performance in order to reduce the light weight and manufacturing cost of the optical pickup.

KR 1221809 B

The present invention provides an automatic power control method of an optical pickup capable of reducing the manufacturing cost of an optical pickup by reducing parts, and an optical disc drive to which the method is applied.

According to the present invention,

Detecting an operation current corresponding to a reference temperature at a reference power level of a laser diode as a light source and storing the detected operation current as a reference value;

Detecting a temperature of the laser diode when recording or reproducing information on the optical disc using the laser diode;

And comparing the temperature value with the reference temperature to adjust an operation current for the laser diode.

According to the present invention, the detection of the temperature is performed by a thermistor, and the reference value can be stored as a bar code.

According to the present invention, the adjustment of the supply current can be determined by the preceding learning data on the change of the operating current corresponding to the temperature change.

According to the present invention, the operating current is adjusted based on the measured temperature without detecting the optical output of the laser diode.

An optical pickup apparatus according to the present invention includes:

A laser diode to which an operating current according to an automatic power control method of the optical pickup is supplied;

An objective lens for focusing the laser onto an optical disk;

And an actuator for driving the objective lens to adjust the focus of the laser beam on the optical disk.

An optical disc drive according to the present invention comprises:

A laser diode to which an operating current according to an automatic power control method of the optical pickup is supplied;

An objective lens for focusing the laser onto an optical disk;

An actuator for driving the objective lens to adjust a focus of the laser on the optical disk;

A control unit for calculating the operating current;

And a laser diode driver (LDD) for supplying the operating current calculated by the controller to the laser diode.

1 is a schematic configuration diagram of an optical pickup according to an embodiment of the present invention.
2 is a schematic configuration diagram of an optical disc drive according to an embodiment of the present invention.
3 is a block diagram illustrating a temperature control method of an optical pickup according to the present invention.
4 is a flowchart for explaining a temperature control method of the optical pickup according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of an optical power control method of an optical pickup and an optical pickup and an optical disc drive according to the present invention will be described with reference to the accompanying drawings.

An optical pickup apparatus according to the present invention includes a laser diode as a light source to which an operating current according to an automatic power control method of an optical pickup is supplied, an objective lens that focuses a laser beam from a light source onto an optical disk, An actuator for driving the objective lens to adjust the temperature of the light source, and a temperature sensor for measuring the temperature of the light source.

According to another aspect of the present invention, there is provided an optical disc drive comprising: a laser diode supplied with an operating current according to an automatic power control method of the optical pickup; an objective lens focusing the laser onto an optical disc; A system controller for calculating the operating current, and a laser diode driver (LDD) for supplying the operating current calculated by the controller to the laser diode, .

FIG. 1 is a schematic block diagram of an optical pickup device applied to an optical disc drive according to an embodiment of the present invention, and FIG. 2 is a block diagram showing a schematic configuration of an optical disc drive according to the present invention.

1, the optical pick-up apparatus includes an optical transmission system 10 directly corresponding to the medium 1, 1a, 1b, and a light source 10 for providing a beam for information reproduction and / or recording from the medium 1 A light source system 20, and a light receiving system 30 for receiving the beam reflected from the medium 1.

The light source system 20 includes a first light source 21a for BD, a first diffractive element 22a for BD, a coupling lens 23a, a second light source 21b for CD / DVD, A diffraction element 22, a first beam splitter 24, and a temperature sensor 25 for detecting the temperature of the light sources. The first beam splitter 24 has a cubic structure in which a beam from the first light source 21a and a beam from the second light source 21b enter the adjacent first and second surfaces 24a and 24b, And light beams from the first and second light sources 21a and 21b are emitted commonly to the third surface 24c opposite to the second surface, and the beams from these beams are incident on the second beam splitter 13 ). The coupling lens 23a adjusts an optical magnification between the first light source 21a and the second beam splitter 24, that is, a defocus amount of the progressive light, so that the light flux from the first light source 21a to the medium 1 , 1a, 1b).

The first and second diffraction elements 22a and 22b form a main beam and +/- primary sub-beams by diffracting a single beam from the first and second light sources 21a and 21b. These main beams and sub beams have a polarization component (hereinafter referred to as a second polarization) in a second direction orthogonal to the polarization component of the first direction (hereinafter referred to as first polarization) and the other direction. As is well known, the diffraction elements 22a and 22b can vary the spacing between the main beam and the sub-beam according to the interval or period of the grating.

The transmission system 10 is located on the reflected light traveling path from the optical path refraction mirror 16 and the optical path refraction mirror 16 that refracts the path of the light incident from the second beam splitter 13, A dichroic mirror 18a that reflects a beam of a wavelength, for example, a beam for CD / DVD, and transmits the beam for BD, and a total reflection mirror (not shown) for reflecting the beam for BD transmitted through the dichroic mirror 18a 18b. A first objective lens 11a for BD is located on the reflected light travel path of the total reflection mirror 18b and a second objective lens 11b for CD / DVD is positioned on the reflected light travel path from the dichroic mirror 18a. do.

The light receiving system 30 includes a light receiving element 32 and a sensing lens 32 for focusing the laser beam on the light receiving element. The light receiving element 32 of the light receiving system 30 and the light sources 21a and 21b of the light source system 20 are connected to an RF amplifier and a laser diode driver to be described later in the optical disc driver.

Referring to Fig. 2, the optical disc drive 100 includes an optical pickup device 2, for example, an optical pickup device as shown in Fig. 1, for reading or writing information from the media 1a and 1b. The optical pickup device 2 further includes an optical system of the above-described optical pickup device and a mechanical system 2a mechanically supporting the optical system and causing focusing and tracking operations. The light receiving sensor 32 of the optical system is electrically connected to the RF amplifier 4 and the light source 21 is connected to the light source driver (or laser diode driver, LDD 6). The light source driver 6 is connected to the HFM circuit 7. On the other hand, the mechanical system 2a of the optical pickup device 2 is connected to the servo unit 4. [ The servo unit 4 performs tracking and focusing control of the optical pickup device 2, and the like. The RF amplifier 4, the servo unit 5, the light source driver 6, and the HFM circuit 7 are connected to the controller 3. The DSP controller 3 includes an information processing section 3a including an encoder / decoder for processing signals from the RF amplifier 4, a temperature detector 7 connected to the temperature sensor 25 of the optical pickup 2, And a system control unit 3b for controlling (controlling) all elements in the system such as the servo unit 5, the light source driver 6 and the HFM circuit 7. [ Meanwhile, the optical pickup according to the present invention includes a barcode 26 containing information on the operating current (Iop) of the light source measured at the time of manufacture. This means an intrinsic characteristic of the light source used in controlling the output of the light source in response to the temperature change.

4 shows a method of adjusting the power of a light source (LD) in an optical disc drive according to the present invention.

The optical pickup device and the optical disk drive using the same according to the present invention do not have a conventional photodetector. Conventional photodetectors monitor the output of the light source and adjust the output of the source by feedback.

The present invention detects the temperature of the optical pickup device through a temperature detector 25 such as a thermistor without using a photodetector and controls the output of the light source by using the detected temperature. The present invention includes the following steps.

1. The step of detecting the operating current corresponding to the reference temperature at the reference power level of the laser diode (light source) and storing it as a reference value is information on the operating current as described above.

2. detecting the temperature of the laser diode when recording or reproducing information on the optical disc using the laser diode;

3. adjusting the operating current for the laser diode by comparing the temperature value with the reference temperature;

More specifically, the operation of controlling the power of the light source 21 is performed by reading the operation current Iop from the barcode 26 provided in the optical pickup 2 and reading the operation current Iop from the temperature detector 25 provided in the optical pickup 2 And calculates the operation current Iop according to the temperature and transmits it to the light source driver 6. The operating current information is used to set the initial value of the output optical power of the light source 21 in automatic power control. The bar code is a record of the operating current characteristics of the light source for each individual optical pickup measured at the time of manufacturing the optical pickup.

The light source drive 6 supplies a regulated current Iop-o to the light source in accordance with the transmitted power adjustment value Iop-i. At this time, by using the operating current information of the light source obtained from the bar code 26, the reference value for operating current control is prepared in comparison with a table learned in advance. The table has learned information about the output current VS of the light source.

4 is a flowchart of an automatic power control method of an optical pickup according to the present invention.

Referring to FIG. 4, the bar code is read (41) from the optical pickup. The bar code may include an operating current value for a predetermined reference output at an arbitrary reference temperature as an intrinsic characteristic of the light source for each optical pickup.

After detecting the operating current characteristic of the light source from the information of the read bar code (42), the temperature is detected from the temperature detector (43). This temperature detection is repeated in real time periodically by the system control section.

When the temperature detection is completed, the operating current is calculated considering the inherent operating current characteristic of the light source (44). This operating current has a value corresponding to the target output through the light source, which depends on the intrinsic operating current characteristic of the light source.

The current supply 45 process from the above temperature detection process 43 is repeated along the infinite root when the optical pickup or the optical disk drive is operating.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood that various modifications and equivalent embodiments are possible. Accordingly, the true scope of the present invention should be determined by the appended claims.

1 (1a, 1b): optical disk (medium)
2. Optical pickup
3:
4: RF amplifier
5: Servo unit
6: Light source drive (LDD)
7:
100: optical disc drive

Claims (14)

Detecting an operation current corresponding to a reference temperature at a reference power level of a laser diode as a light source and storing the detected operation current as a reference value;
Detecting a temperature of the laser diode when recording or reproducing information on the optical disc using the laser diode;
And adjusting the operating current for the laser diode by comparing the temperature value with the reference temperature. The method according to claim 1,
Wherein the detection of the temperature is performed by a thermistor. The method according to claim 1,
Wherein the adjustment of the supply current is determined by the preceding learning data on the change of the operating current corresponding to the temperature change. 4. The method according to any one of claims 1 to 3,
Wherein the reference value is recorded in a barcode form. 5. The method of claim 4,
Wherein the operating current is adjusted based on the measured temperature without detecting the optical output of the laser diode. 4. The method according to any one of claims 1 to 3,
And controlling the operating current based on the measured temperature without detecting the optical output of the laser diode 7. An optical pickup whose power is adjusted by the method of claim 1,
A laser diode to which an operating current according to an automatic power control method of the optical pickup is supplied;
An objective lens for focusing the laser onto an optical disk;
An actuator for driving the objective lens to adjust a focus of the laser on the optical disk; And
And a temperature sensor for detecting the temperature of the laser diode. 8. The method of claim 7,
Wherein the temperature sensor is a thermistor. 8. The method of claim 7,
Wherein the adjustment of the supply current is determined by the preceding learning data on the change of the operating current corresponding to the temperature change. 10. The method according to any one of claims 7 to 9,
Wherein the reference value is recorded in the form of a bar code. An optical disk drive for carrying out the method according to claim 1,
An optical pickup comprising: a laser diode; an objective lens for focusing the laser on an optical disk; an actuator for driving the objective lens to adjust the focus of the laser on the optical disk; and a temperature sensor for detecting the temperature of the laser diode. ;
A controller for calculating an operating current according to a temperature of the laser diode;
And a laser diode driver (LDD) for supplying the operation current calculated by the control unit to the laser diode. 12. The method of claim 11,
Wherein the temperature sensor is a thermistor. 12. The method of claim 11,
Wherein the adjustment of the supply current is determined by preceding learning data on a change in operating current corresponding to a temperature change. 14. The method according to any one of claims 11 to 13,
Wherein the reference value is recorded in the form of a bar code.

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