JPH10289466A - Optical disk device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an optical disk device small in the number of parts and excellent in control characteristics to temperature change with simple configuration by using a laser diode as a temperature sensor. SOLUTION: This device has a laser control means 10 for making drive current flow, generating light beams and controlling a light output, a monitor means 12 for monitoring the drive current of a laser diode, an optical head device 2 for irradiating a disk with light beams and making an object lens track in the direction of focus tracking by driving an objective lens, an optical detecting means 8 for detecting the light output value of the laser diode 6, and a comparing means 14 for comparing the drive current value obtained from the monitor 12 with the light output value obtained from the optical detecting means 8. In this case, by switching the control characteristic and recording characteristic of an optical head device 2 based on the result of the comparing means 14, the change of environment temperature is detected by the laser diode 6, the control of the optical head device is stabilized, also stable recording characteristic can be obtained in laser control.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical disk apparatus for optically recording or reproducing information by projecting a light spot on a disk-shaped recording medium.

[0002]

2. Description of the Related Art In recent years, a device for recording and reproducing information (hereinafter, referred to as an optical disk device) using a disk-shaped optical recording / reproducing medium (hereinafter, referred to as a disk) has advantages of large capacity and high speed. Recognized and widely used for voice, image and data recording. Conventionally, as a countermeasure against a temperature change of an optical disk device, one described in Japanese Patent Application Laid-Open No. 58-177534 is known. Hereinafter, a conventional optical disk device will be described with reference to the drawings.

FIG. 4 is a configuration diagram of a conventional optical disk device. In FIG. 4, an optical head device 51 includes an objective lens actuator 53 to which a magnetic circuit of a magnet and a coil (not shown) is formed and an objective lens 52 is adhered and fixed, a laser diode 54, a reflection mirror 55, and a signal detector 56. And is connected to the optical head control means 61.
The laser diode 54 is connected to the laser control means 60, and the signal detector 56 outputs a focus error signal,
It is connected to a head amplifier 57 that amplifies a tracking error signal. Laser control means 60, head amplifier 57, optical head control means 61, motor drive means 62,
The temperature sensors 63 are connected to the central control means 59, respectively, and constitute an optical disk device 65.

The operation of the conventional optical disk device 65 configured as described above will be described below. The light beam generated by the laser diode 54 is deflected in a substantially right angle direction by a reflection mirror 55, condensed by an objective lens 52, and is converged by a disc motor 64 and a motor driving unit 62.
Is irradiated onto the rotating disk 50. The irradiated light beam drives an optical head device 51 equipped with an objective lens 52 and an objective lens actuator 53 in accordance with a drive signal from an optical head control means 61 to move its focal position. The deviation of the focal position of the light beam is detected by a signal detector 56 in the optical head device 51 as a focus error signal and a tracking error signal, and is input to a central control means 59 via a head amplifier 57.
The correction of the focal position is calculated by the central control means 59, and a command signal is sent to the optical head control means 61 to control the drive of the optical head device 51. As a result, the focal position of the light beam condensed on the disk 50 is moved to a target position, and the recording and reproducing operation of the information signal is performed following the surface deviation and eccentricity of the disk 50. Here, when the optical head device 51 and the disk motor 64 are driven, the power consumption including the integrated circuit (not shown) increases, and heat is generated.
The temperature inside rises. The objective lens 52, the objective lens actuator 53, and the reflection mirror 55, which constitute the optical head device 51, are generally made of an adhesive as an assembling / fixing means. There is a problem that the optical characteristics and the frequency characteristics of the optical head device 51 change due to the occurrence of aberration in the lens 52. To solve this problem, the temperature in the optical disk device 65 is measured by the temperature sensor 66 connected to the central control means 59. Then, the optical head control characteristics are switched according to the temperature. Further, in the magneto-optical disk device, when the temperature changes, the sensitivity of the disk changes. Therefore, the recording characteristics are switched according to the temperature.

[0005]

However, the above-mentioned conventional configuration has a problem that the temperature sensor must be mounted in the optical disk device, the number of parts is increased, and the cost is increased. Further, since it is necessary to switch the optical head control characteristics due to a change in the temperature characteristics of the optical head device, the temperature sensor has to be disposed near the optical head device, which has a problem that the configuration becomes complicated.

SUMMARY OF THE INVENTION In view of the above problems, it is an object of the present invention to provide an optical disk apparatus which has a small number of parts by using a laser diode as a temperature sensor, has a simple structure, and has good control characteristics with respect to a change in temperature. I do.

[0007]

SUMMARY OF THE INVENTION In order to solve this problem, the present invention provides a laser diode, a laser control means for controlling a light output by generating a light beam by supplying a drive current to the laser diode, and a drive of the laser diode. Monitoring means for monitoring a current; an optical head device for irradiating a light beam onto a disk to drive an objective lens to follow a focus and a tracking direction; light detection means for detecting a light output value of a laser diode; and monitoring means And a comparing means for comparing the obtained driving current value with the light output value obtained from the light detecting means, and detects the temperature from the result of the comparing means.

According to the present invention, the number of parts is reduced by using a laser diode as a temperature sensor,
An optical disk device having a simple configuration and capable of performing stable control with respect to a change in temperature can be obtained.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention according to claim 1 of the present invention is directed to a laser diode, a laser control means for controlling a light output by causing a drive current to flow through the laser diode to generate a light beam, and a drive current of the laser diode. Monitor means for monitoring the light beam, an optical head device for irradiating a light beam onto the disk and driving the objective lens to follow the focus and tracking directions, a light detection means for detecting the light output value of the laser diode, and the monitor means An optical disc device, comprising: a comparison unit that compares the obtained drive current value and an optical output value obtained by the light detection unit, and switches a control characteristic of the optical head device according to a result of the comparison unit. Detects changes in environmental temperature with a simple configuration without increasing the number of components, and changes in environmental temperature that are harmful to optical head device control characteristics. Such an action can be performed stable control against.

According to a second aspect of the present invention, there is provided a laser diode, laser control means for supplying a drive current to the laser diode to generate a light beam and controlling the light output, and monitor means for monitoring the drive current of the laser diode.
An optical head device that irradiates a light beam onto a disc to drive an objective lens to focus and follow a tracking direction, a light detection unit that detects a light output value of a laser diode, and a drive current value obtained from a monitor unit. A comparison means for comparing the light output values obtained from the light detection means, and switching the recording characteristics of the optical head device according to the result of the comparison means, without increasing the number of parts, It has the effect of detecting a change in environmental temperature with a simple configuration and performing stable laser control against a change in environmental temperature that is harmful to the recording characteristics of the optical head device.

According to a third aspect of the present invention, there is provided a laser diode, a laser control means for supplying a drive current to the laser diode to generate a light beam and controlling the light output, and irradiating the light beam onto the disk to drive the objective lens. An optical head device for following the focus and tracking directions
Light detection means for detecting the light output value of the laser diode, wherein the control characteristic of the optical head device is switched by the light output value obtained by the light detection means when the drive current of the laser diode is constant. An optical disk device, which has a function of detecting a change in environmental temperature with a simple configuration without increasing the number of components, and performing stable control with respect to a change in harmful environmental temperature in the optical head device control characteristics.

According to a fourth aspect of the present invention, there is provided a laser diode, a laser control means for supplying a drive current to the laser diode to generate a light beam and controlling the light output, and irradiating the light beam onto the disk to drive the objective lens. An optical head device for following the focus and tracking directions
Light detection means for detecting the light output value of the laser diode, wherein the recording characteristic of the optical head device is switched by the light output value obtained by the light detection means when the drive current of the laser diode is constant. An optical disk device, which has a function of detecting a change in environmental temperature with a simple configuration without increasing the number of components, and performing stable laser control with respect to a change in environmental temperature that is harmful to the recording characteristics of an optical head device.

According to a fifth aspect of the present invention, there is provided a laser diode, a laser control means for supplying a drive current to the laser diode to generate a light beam and controlling the light output, and a monitor means for monitoring the drive current of the laser diode.
It has an optical head device that irradiates a light beam onto a disc to drive an objective lens to focus and follow in a tracking direction, and a light detection unit that detects a light output value of a laser diode. An optical disc device characterized by switching control characteristics of an optical head device according to a drive current value obtained by a monitor means at a constant time, detecting a change in environmental temperature with a simple configuration without increasing the number of parts, In the optical head device control characteristics, there is an effect that stable control can be performed for a harmful change in environmental temperature.

According to a sixth aspect of the present invention, there is provided a laser diode, laser control means for supplying a drive current to the laser diode to generate a light beam and controlling the light output, and monitor means for monitoring the drive current of the laser diode.
It has an optical head device that irradiates a light beam onto a disc to drive an objective lens to focus and follow in a tracking direction, and a light detection unit that detects a light output value of a laser diode. An optical disc device characterized by switching the recording characteristics of an optical head device according to a drive current value obtained by a monitor means at a constant time, detecting a change in environmental temperature with a simple configuration without increasing the number of parts, The optical head device has an effect that stable laser control can be performed against a harmful change in environmental temperature in the recording characteristics of the optical head device.

FIG. 1 shows an embodiment of the present invention.
This will be described with reference to FIG. (Embodiment 1) FIG. 1 is a configuration diagram of an optical disk device according to a first embodiment of the present invention. In FIG. 1, an optical head device 2 forms a magnetic circuit of a magnet and a coil (not shown) and an objective lens actuator 4 to which an objective lens 3 is adhered and fixed, and is fixed to a base 5 by press-fitting or fixing means such as a screw. A laser diode 6, a reflection mirror 7 adhered to the base 5 and formed on its surface with a reflection film for transmitting a part of light, a light detection means 8 for detecting an optical output value of light transmitted through the reflection mirror 7, It is composed of a signal detector 9 for detecting reflected holograms or reflected light from the disk 1 deflected by the beam splitter, and is connected to the optical head control means 15. The laser diode 6 is connected to monitoring means 12 for monitoring a drive current value of the laser diode 6 and laser control means 10, and the signal detector 9 is connected to a head amplifier 11 for amplifying a focus error signal and a tracking error signal. I have. A comparing means for comparing a driving current value obtained from the monitoring means with an optical output value obtained from the light detecting means;
4 are connected to each other. Laser control means 1
0, a head amplifier 11, a comparison means 14, an optical head control means 15, and a motor drive means 16 are connected to the central control means 13, respectively, to constitute an optical disk device 18.

The operation of the optical disk device 18 of the embodiment configured as described above will be described below. The light beam generated by the laser diode 6 is reflected by a reflection mirror 7
Then, the light is deflected in a substantially right angle direction, is condensed by the objective lens 3, and is irradiated on the disk 1 being rotated by the disk motor 17 and the motor driving means 16. Further, a part of the light beam transmitted from the reflection mirror 7 is detected by the light detecting means 8, and the light output value of the light beam is always sent as a signal to the laser control means 10 through the comparing means 14. If the light output value of the light beam applied to the disc 1 is not stable, accurate recording and reproduction cannot be performed. Therefore, if there is a change in the detected light output value, the central control means 13 sends the information to the laser control means 10. A command signal is sent and correction is applied.
The irradiated light beam drives the optical head device 2 on which the objective lens 3 and the objective lens actuator 4 are mounted in accordance with a drive signal from the optical head control means 15 to move the focal position. The deviation of the focal position of the light beam is detected by the signal detector 9 in the optical head device 2 as a focus error signal and a tracking error signal, and is input to the central control unit 13 via the head amplifier 11. The correction of the focal position is calculated by the central control means 13, and a command signal is sent to the optical head control means 15 to control the driving of the optical head device 2. As a result, the focal position of the light beam condensed on the disk 1 is moved to a target position, and the recording and reproducing operation of the information signal is performed by following the surface deviation and the eccentricity of the disk 1.

Here, the thermal resistance R _th of the optical device such as the laser diode 6 is represented by R _th = ΔT / P _opt [K / W] (Equation 1) _assuming that the temperature rise is ΔT and the power consumption is P _opt . When the ambient temperature rises, the thermal resistance of the laser diode 6 becomes larger than (Equation 1), so that it becomes difficult for electrons to be injected into the active layer where light is generated, and the light output value decreases. The drive current is increased by the laser control means 10 in order to stabilize the light output value lowered due to the temperature rise. When the temperature decreases, the thermal resistance decreases, the light output value increases, and the driving current decreases. Thus, a temperature change can be detected from the relationship between the drive current value and the light output value. The comparing means 14 detects the temperature by comparing the drive current value obtained from the monitoring means 12 with the light output value obtained from the light detecting means 8, and according to the detected temperature value from the comparing means 14, By switching the control characteristics described above, the control can be stably performed even when the temperature characteristics of the optical head device 2 change, and the recording control can be stably performed even in the laser control. In addition, since the laser diode 6 is used as a temperature sensor, it can be arranged near the optical head device 2, and the configuration is not complicated.

As described above, according to the present embodiment, a temperature change can be detected from the relationship between the drive current value of the laser diode and the light output value, and this can be compared with the case where a temperature sensor as in the conventional example is used. The number of components is small, and control and recording control of the optical head device can be performed with a simple configuration and stable against temperature changes including the environmental temperature.

(Embodiment 2) Hereinafter, a second embodiment of the present invention will be described with reference to FIG. FIG. 2 is a configuration diagram of an optical disc device according to a second embodiment of the present invention. In FIG. 2, the light detecting means 8 and the monitoring means 1
2, the configuration other than the comparison means 14 is the same as the configuration of the same figure described in the first embodiment, and the detailed description is omitted. There is no monitoring means 12 and no comparing means 14 in the first embodiment, and the light detecting means 8 detects the light output value of the transmitted light of the reflecting mirror 7 and is connected to the laser control means 10. As shown in (Equation 1) as in the first embodiment, when the temperature changes, the light output value of the laser diode 6 changes. When the drive current of the laser diode 6 is constant, a change in temperature can be detected from a change in the light output value obtained by the light detection means 8, and the optical head device 2 can be detected in accordance with the detected temperature value from the light detection means 8. By switching the control characteristics described above, the control can be stably performed even when the temperature characteristics of the optical head device 2 change, and the recording control can be stably performed even in the laser control.

As described above, this embodiment can also achieve the same effects as those described in the first embodiment.

(Embodiment 3) Hereinafter, a third embodiment of the present invention will be described with reference to FIG. FIG. 3 is a configuration diagram of an optical disc device according to a third embodiment of the present invention. In FIG. 3, the configuration other than the monitoring unit 12, the light detection unit 8, and the comparison unit 14 is the same as the configuration of the same figure described in the first embodiment, and detailed description is omitted. There is no comparing means 14 of the first embodiment, and the monitoring means 1
2 monitors the drive current value of the laser diode 6 and is connected to the laser control means 10. When the temperature changes as in the first embodiment, the driving current value of the laser diode 6 changes. When the temperature detection value from the light detection means 8 is constant, a temperature change can be detected from a change in the drive current value of the laser diode 6 obtained by the monitor means 12, and the temperature change can be detected according to the temperature detection value from the monitor means 12. If the control characteristics of the optical head device 2 are switched in this way, it is possible to stably perform control with respect to changes in the temperature characteristics of the optical head device 2 and to perform stable recording control even with laser control.

As described above, this embodiment can also achieve the same effects as those described in the first and second embodiments.

Even if there is an individual difference in the temperature characteristic of the laser diode itself, it is possible to detect a temperature change,
If the optical head device control learning and the laser control learning are performed for a fixed amount of change and these characteristics are switched to optimal values, the individual difference does not matter.

The above embodiment has a basic configuration.
Changes may be made in the details within the scope of the rights of the present invention, and techniques known in the art may be added.

[0025]

As described above, according to the present invention, the temperature including the environmental temperature of the optical disk apparatus can be obtained by using the means for monitoring the drive current value of the laser diode and the means for detecting the light output value. A change can be detected, and the advantageous effect that the number of parts is smaller than that of using a temperature sensor as in the conventional example and stable control can be performed with respect to the temperature change with a simple configuration can be obtained. .

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an optical disc device according to a first embodiment of the present invention;

FIG. 2 is a configuration diagram of an optical disc device according to a second embodiment of the present invention;

FIG. 3 is a configuration diagram of an optical disc device according to a third embodiment of the present invention;

FIG. 4 is a configuration diagram of a conventional optical disk device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Disc 2 Optical head device 3 Objective lens 4 Objective lens actuator 5 Base 6 Laser diode 7 Reflection mirror 8 Light detection means 9 Signal detector 10 Laser control means 11 Head amplifier 12 Monitoring means 13 Central control means 14 Comparison means 15 Optical head Control means 16 Motor driving means 17 Disk motor 18 Optical disk device

Claims (6)

[Claims] 1. A laser diode, a laser control means for supplying a drive current to the laser diode to generate a light beam and controlling a light output, a monitor means for monitoring a drive current of the laser diode, and a disk for controlling the light beam Irradiate on the top and drive the objective lens to focus,
An optical head device that tracks in the tracking direction, and a light detection unit that detects a light output value of the laser diode,
Comparing means for comparing the driving current value obtained from the monitoring means and the light output value obtained from the light detecting means,
An optical disk device, wherein control characteristics of the optical head device are switched according to a result of the comparing means. 2. A laser diode, laser control means for supplying a driving current to the laser diode to generate a light beam and controlling light output, monitoring means for monitoring the driving current of the laser diode, and a disk for discriminating the light beam. Irradiate on the top and drive the objective lens to focus,
An optical head device that tracks in the tracking direction, and a light detection unit that detects a light output value of the laser diode,
Comparing means for comparing the driving current value obtained from the monitoring means and the light output value obtained from the light detecting means,
An optical disk device, wherein a recording characteristic of the optical head device is switched according to a result of the comparing means. 3. A laser diode, a laser control means for applying a drive current to the laser diode to generate a light beam and controlling the light output, and irradiating the light beam onto a disk to drive an objective lens to perform focusing and tracking. An optical head device for causing the laser diode to follow the direction, and light detecting means for detecting the light output value of the laser diode, and the light output value obtained by the light detecting means when the drive current of the laser diode is constant is determined by the light output value. An optical disc device characterized by switching control characteristics of an optical head device. 4. A laser diode, a laser control means for applying a drive current to the laser diode to generate a light beam and controlling a light output, and irradiating the light beam onto a disk to drive an objective lens to perform focusing and tracking. An optical head device for causing the laser diode to follow the direction, and light detecting means for detecting the light output value of the laser diode, and the light output value obtained by the light detecting means when the drive current of the laser diode is constant is determined by the light output value. An optical disc device characterized by switching recording characteristics of an optical head device. 5. A laser diode, a laser control means for supplying a drive current to the laser diode to generate a light beam and controlling a light output, a monitor means for monitoring the drive current of the laser diode, and a disk for controlling the light beam. Irradiate on the top and drive the objective lens to focus,
An optical head device for following in the tracking direction, and light detection means for detecting the light output value of the laser diode, wherein the drive current value obtained by the monitor means when the light output value of the laser diode is constant. An optical disk device characterized by switching control characteristics of the optical head device. 6. A laser diode, laser control means for supplying a driving current to the laser diode to generate a light beam and controlling light output, monitoring means for monitoring the driving current of the laser diode, and discping the light beam to a disk. Irradiate on the top and drive the objective lens to focus,
An optical head device for following in the tracking direction, and light detection means for detecting the light output value of the laser diode, wherein the drive current value obtained by the monitor means when the light output value of the laser diode is constant. An optical disc device characterized by switching recording characteristics of the optical head device.