KR20000050981A - Laser Power Control Apparatus in Information Recording/Reproducing Apparatus - Google Patents

Abstract

The present invention relates to a laser power control device for controlling the power of a laser diode used as a light source.

The laser power control apparatus of the information recording / reproducing apparatus according to the present invention comprises a light source for generating light, a photodetecting device for detecting an output of the light source, a dark current detecting means for detecting a dark current of the photodetecting device, and a photodetecting device for the detected dark current. And a power adjusting means for correcting the output signal of the light source to adjust the input signal level of the light source.

With this arrangement, the laser power control device of the information recording / reproducing apparatus according to the present invention keeps the output of the laser diode constant.

Description

Laser Power Control Apparatus in Information Recording / Reproducing Device {Laser Power Control Apparatus in Information Recording / Reproducing Apparatus}

The present invention relates to an information recording / reproducing apparatus, and more particularly, to a laser power control apparatus for controlling the power of a laser diode used as a light source.

The information recording medium is an optical recording / reproducing phase change type recording medium, and a DVD-RAM having a recording capacity of up to 4.7 GB is recorded and marketed on a disc having a recording capacity of 120 mm compared to a CD. As a magneto-optical recording medium, magnetic storage modulation recording has been adopted, and ASMO (Advanced Storage Magneto Optical) having a recording capacity of 6.1 GB has been developed.

An information recording / reproducing apparatus for recording or reproducing information on such an information recording medium is provided with an optical pickup for optically accessing the recording medium.

The optical pickup includes a light source for generating light having a specific wavelength, an objective lens for focusing light on a recording medium, and a light detecting device for detecting a reproduction signal for receiving a reflected light reflected from the recording medium and converting the light into an electrical signal to detect a reproduction signal. And an optical system for guiding the light generated from the light source toward the objective lens and guiding the light beam of the reflected light toward the photodetecting device. The output power of the light source must be maintained at a constant level set at the time of recording or reproduction for normal recording / reproduction.

To this end, the information recording / reproducing apparatus is provided with a laser power control apparatus for controlling the output of the laser diode (LD) to be kept constant.

1 is a view schematically showing a conventional laser power control device.

In the configuration of FIG. 1, the conventional laser power control apparatus includes an optical pickup 2 for optically accessing a recording medium, and a current / voltage converter (hereinafter, " I / ") connected to the optical detection element for monitoring the optical pickup 2; 4), a voltage / current converter (hereinafter referred to as " V / I converter ") 12 connected to a light source of the optical pickup 2, and an output voltage and reference of the monitoring photodetecting device. A differential amplifier 6 for differentially amplifying the voltage Vrf, and an amplifier 10 for amplifying the output signal of the differential amplifier 6 by a predetermined gain value.

The monitoring photodetector is installed inside or outside the light source to detect the output power of the light source by converting the power of the light output from the light source into a current signal. A photo diode (PD) is generally used as the photodetecting device for monitoring. Hereinafter, the photodetecting device for monitoring is called a photodiode. In this monitoring photodetecting device, the output current falls toward the ground potential GND as the amount of light from the light source increases. The light source is a semiconductor laser diode (LD) that is easy to turn on / off the light and is advantageous for application to a miniaturized device. The I / V converter 4 converts the output current signal of the photodetector into a voltage signal and supplies it to the differential amplifier 6. The differential amplifier 6 compares the preset reference voltage Vrf with the output voltage of the I / V converter 4 so that when the output voltage of the I / V converter 4 becomes larger than the reference voltage Vrf, Difference voltage of () is generated and the output voltage of the I / V converter 4 is smaller than the reference voltage Vrf, thereby outputting the difference voltage of positive polarity (+). The positive or negative differential voltage output from the differential amplifier 6 is amplified by the amplifier 10 and supplied to the laser diode LD via the V / I converter 12.

As a result, the conventional laser power control device detects the intensity of the light using a photodiode when light is emitted from the laser diode LD, and when the output voltage of the photodiode is higher than the reference voltage Vrf by comparing with the reference voltage. While supplying the negative voltage of negative polarity to the laser diode LD reduces the output of the laser diode LD, if the output voltage of the photodiode is lower than the reference voltage Vrf, the difference of positive polarity is positive. By supplying a voltage to the laser diode LD to increase the output of the laser diode LD, the output power of the laser diode LD is maintained at a constant level.

However, the conventional laser power controller has a problem that does not properly consider the different temperature characteristics of the laser diode (LD) and the photodiode (PD).

The laser diode LD increases or decreases its output power as the ambient temperature changes due to its temperature characteristics.

The photodiode (PD) also has a characteristic that the dark current and sensitivity change according to the ambient temperature change by its temperature characteristics. Here, the dark current refers to a current generated when a reverse voltage is applied to the photodiode PD in an ambient environment in which there is no light.

Referring to FIG. 2, it can be seen that the dark current increases linearly as the temperature of the photodiode PD increases.

3 illustrates a change in laser diode (LD) output and photodiode (PD) output in a conventional laser power control device.

Referring to FIG. 3, when the laser diode LD starts to emit light in the recording / reproducing mode, the ambient temperature changes with time, and the output of the laser diode LD increases. On the other hand, when the amount of light incident on the photodiode (PD) increases, the output current value of the photodiode (PD) should decrease toward the ground potential (GND) in proportion to the amount of light at a specific current value, but the dark current increases as the ambient temperature increases. Without increasing the output of the diode LD, a constant current value is output.

As described above, in the conventional laser power control device, the output of the photodiode PD should change in response to the change in the output of the laser diode LD, but the output change of the laser diode LD is changed by the temperature characteristic of the photodiode PD. Since it is impossible to detect the power, the output of the laser diode LD cannot be kept constant.

If the output power of the laser diode LD is not kept constant, the amount of jitter of the reproduction signal increases during reproduction, leading to deterioration of the reproduction signal and reducing the focus offset margin. Becomes difficult.

Accordingly, it is an object of the present invention to provide a laser power control apparatus of an information recording / reproducing apparatus for keeping the output of a laser diode constant.

1 is a block diagram showing a conventional laser power control device.

FIG. 2 is a characteristic diagram showing a relationship between a temperature change and a dark current of the photodiode shown in FIG. 1. FIG.

3 is a waveform diagram illustrating an output signal according to a temperature change of the laser diode and the photodiode shown in FIG. 1.

4 is a block diagram showing a laser power control apparatus of the information recording / reproducing apparatus according to the embodiment of the present invention.

FIG. 5 is a waveform diagram illustrating an output signal according to temperature change of the sample & holder and laser diode shown in FIG. 4. FIG.

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

2,22: Optical pickup 4,14: I / V converter

6,16: differential amplifier 10,20: amplifier

12,18: V / I converter 24: Sample & holder

26: subtractor

In order to achieve the above object, the laser power control apparatus of the information recording / reproducing apparatus according to the present invention includes a light source for generating light, a photodetecting device for sensing the output of the light source, a dark current detecting means for detecting a dark current of the photodetecting device; And a power adjusting means for adjusting the input signal level of the light source by correcting the output signal of the photodetecting device by the detected dark current.

Other objects and features of the present invention in addition to the above objects will become apparent from the description of the embodiments with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 4 and 5.

4 shows a laser power control apparatus of the information recording / reproducing apparatus according to the embodiment of the present invention.

In the arrangement of Fig. 4, the laser power control device of the present invention comprises an optical pickup 22 for optically accessing the recording medium and an I / V converter 14 connected to the photodiode PD of the optical pickup 22. And a sample & holder 24 for detecting the dark current from the I / V converter 14, and a subtractor 26 for subtracting the output voltage of the I / V converter 14 and the output voltage of the sample & holder 24. ), A differential amplifier 16 for differentially amplifying the output voltage and the reference voltage Vrf of the subtractor 26, an amplifier 20 for amplifying the output voltage of the differential amplifier 16 by a predetermined gain value, A V / I converter 18 is connected between the amplifier 20 and the laser diode LD of the optical pickup 22.

The I / V converter 14 converts the output current of the photodiode PD into a voltage signal and supplies it to the sample & holder 24 and the subtractor 26 in common.

The sample & holder 24 is connected between the output terminal of the I / V converter 14 and the negative terminal of the subtractor 26 so that the laser diode LD is turned off and the laser diode is turned off. While the output of the LD maintains a low level, a dark current is detected and supplied to the subtractor 26 by sampling the output voltage of the I / V converter 14. The sample & holder 24 holds the detected dark current value while the laser diode LD is turned on and the output of the laser diode LD maintains a high level. Done. To this end, the sample & holder 24 is an I / V converter according to the LD driving state determination signal LD on / off whose logic value changes in response to the on / off driving signal of the VI converter 18. The output signal of (14) is sampled or held.

The subtractor 26 subtracts the output voltage of the I / V converter 14 and the output voltage of the sample & holder 24 and supplies the difference voltage to the inverting input terminal of the differential amplifier 16.

The differential amplifier 16 is supplied with a preset reference voltage Vrf to its non-inverting input terminal to differentially amplify the reference voltage Vrf and the differential voltage from the subtractor 26 and transmit the difference signal to the amplifier 20. Will be supplied. Therefore, the differential amplifier 16 compares the reference voltage Vrf with the difference voltage from the subtractor 26, and when the difference voltage from the subtractor 26 becomes larger than the reference voltage Vrf, the negative voltage difference (-) is negative. When the difference voltage from the subtractor 26 is smaller than the reference voltage Vrf, the difference voltage of positive polarity (+) is supplied to the amplifier 20.

The amplifier 20 amplifies the output voltage of the differential amplifier 16 by a predetermined gain value and supplies it to the V-I converter 18.

The V-I converter 18 converts the voltage signal from the amplifier 20 into a current signal and supplies it to the laser diode LD. The VI converter 18 is enabled or disabled according to the logic value of the on / off signal, and supplies a voltage / current conversion signal to the laser diode LD during the enable period to supply the laser diode LD. ) Is emitted and the laser diode LD is turned off during the disable period.

5 is a diagram showing the output of the sample & holder 24 and the laser diode LD according to the temperature change.

Referring to FIG. 5, after the laser diode LD is turned off, at a rising time when the laser diode LD is turned on, the sample & holder 24 samples the output voltage of the I / V converter 14 to increase the temperature. The dark current of the photodiode PD is increased in proportion to. The detected dark current is subtracted from the output voltage of the I / V converter 14 by the subtractor 26 and then differentially amplified with the reference voltage Vrf by the differential amplifier 16. The output voltage of this differential amplifier 16 is amplified via the amplifier 20 and the V / I converter 18, voltage-current converted, and supplied to the input terminal of the laser diode LD. Then, since the laser diode LD emits light as an input current subtracted by the dark current value of the photodiode PD, the output power decreases by that amount.

As described above, in the present invention, the dark signal is detected and subtracted from the output signal of the I / V converter 14 every time the laser diode LD is turned off to correct the output signal of the photodiode PD.

As described above, the laser power control apparatus of the information recording / reproducing apparatus according to the present invention detects the dark current from the output of the photodiode changed by the temperature characteristic and subtracts the dark current from the output signal of the photodiode to reduce the output of the laser diode. Kept constant.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (4)

A light source for generating light, A photodetector for sensing the output of the light source; Dark current detection means for detecting a dark current of the photodetecting device; And power adjusting means for correcting an output signal of the photodetecting device by the detected dark current to adjust the input signal level of the light source. The method of claim 1, The dark current detecting means includes a sample & hold means for detecting the dark current while the light source maintains a low level and holding the detected dark current while the light source maintains a high level. Laser power control device in the playback / regeneration device. The method of claim 1, The power adjusting means includes a subtractor for subtracting the detected dark current and an output signal of the photodetecting device; A differential amplifier for differentially amplifying a predetermined reference value of the output signal of the subtractor; An amplifier for amplifying the output signal of the differential amplifier by a predetermined gain value; And a voltage / current converter for supplying the output signal of the amplifier to the light source by voltage / current conversion. The method of claim 2 or 3, The voltage / current converter supplies a voltage / current conversion signal to the light source according to a logic value of a driving control signal input thereto. And said sample & hold means samples said dark current in accordance with a control signal in response to said drive control signal.