KR100559712B1 - Apparatus for monitoring laser beam for use in optical pickup - Google Patents

Abstract

The present invention relates to a monitor apparatus for an optical pickup laser light, wherein when a predetermined optical pickup laser light is input by electrically connecting and installing optical / electric conversion modules each having an optimum sensitivity for each wavelength of the laser light, By monitoring the wavelength and intensity of the laser light currently being used in the optical pickup apparatus by using the electrical signals generated by different reactions in each of the optical / electric conversion modules, the laser beams having different wavelengths at the time of optical pickup are varied. Regardless of whether used, the high sensitivity allows the laser beam to be accurately monitored and its intensity adjusted.

Light, Pickup, Multiple, Laser Light, Monitor

Description

Apparatus for monitoring laser beam for use in optical pickup}

1 is a view showing a general optical pickup device;

FIG. 2 is a diagram showing a monitor apparatus of a laser beam used in FIG. 1; FIG.

3 is a view showing a monitor apparatus for an optical pickup laser light according to the present invention;

4 is a view showing a first embodiment of the laser light voltage generation unit of FIG. 3;

FIG. 5 is a view showing a second embodiment of the laser light voltage generation unit of FIG. 3;

6 is a view showing an example of the signal generation unit for adjusting the light intensity of FIG.

7 is a view showing a user resistance control unit used in the present invention,

8 is a detailed circuit diagram showing a laser light voltage generation unit in more detail;

9 is a detailed circuit diagram showing the light intensity control signal generator in more detail.

Explanation of symbols on the main parts of the drawings

300: light / pre-conversion unit 300-1: first wavelength light / pre-conversion module

300-2: second wavelength optical / electric conversion module 300-3: third wavelength optical / electric conversion module

300-n: n-th wavelength optical / electric conversion module 400: laser light voltage generation unit

500: signal generator for adjusting the light intensity

The present invention relates to a monitor apparatus for an optical pickup laser beam, which enables to accurately monitor the laser beam with high sensitivity and adjust its intensity regardless of whether laser beams having different wavelengths are used in optical pickup.

In general, an optical pickup device uses a laser beam as a key component embedded in a predetermined driver that writes information to a recording medium such as a CD-R, CD-RW, or a digital video disc (DVD) or reads the information recorded therein. An operation of recording the information by determining the optical difference on the surface of the recording body and reading the information or generating the optical difference is shown. FIG. 1 is a diagram showing such a conventional optical pickup apparatus.

As shown in the drawing, a typical optical pickup device includes a laser diode 100 for generating a laser light source, an orthopedic prism 110 for traveling in a predetermined direction when the generated laser light source is incident at an arbitrary angle; The beam splitter 120 for changing the refraction direction differently according to the incident direction of the laser beam passing therethrough, the collimator lens 130 for adjusting the converted laser beam in parallel, and the laser beam having passed through Reflecting mirror 140 for reflecting in the direction in which the optical disk is located, an objective lens (not shown) for condensing the laser light and the photodetector 150 for detecting the reflected light is irradiated to the data track of the optical disk It is composed of

In particular, the laser light generated by the laser diode 100 is sensed so as to reduce the amount of laser light when excessive laser light is generated, and to increase the amount of laser light when the laser light quantity lower than the reference value is generated. An optical pickup monitor device 200 for outputting a signal to the optical disk driver is further disposed.

The optical pickup monitor device 200 is installed to compensate for the characteristics of the output of the laser diode falling when the temperature rises due to the continuous use of the laser diode, and the general monitor device is shown in FIG. 2. The light / electric conversion module 210 and the monitor signal output unit 220 convert the light into an electrical signal.

The optical pickup monitor device 200 thus configured receives a portion of the laser light generated from the laser diode through the optical / electric conversion module 210 and converts the current into a current, and the monitor signal output unit 220 converts the current into a current. A predetermined voltage corresponding to the quantity is outputted to the optical disk driver so that the optical disk driver can increase or decrease the power of the signal applied to the laser diode according to the output voltage to correct the optical output characteristics of the laser diode.

However, such an optical pickup monitor device typically uses one optical / electric conversion module that exhibits optimal sensitivity only to a specific wavelength, and therefore, 780 nm wavelength used for various wavelengths, for example, CD-R or CD-RW, When laser light of various wavelengths, such as the 780 nm wavelength used for DVD light, is used, the sensitivity is significantly lowered at the wavelengths other than the corresponding wavelength.

Therefore, regardless of the wavelength of the laser light used, whether it is a 780nm wavelength laser light or 650nm laser light, stable monitoring operation must be performed without reducing the sensitivity. Since it is even more difficult to apply to next-generation optical discs such as Blu-ray Discs, there is a need for a new optical pickup laser monitor device having an improved structure.

Accordingly, the present invention has been developed to satisfy the above-mentioned needs, and provides a monitor device for an optical pickup laser light, which can accurately monitor the laser light with high sensitivity regardless of variously used laser lights having different wavelengths. Its purpose is to.

In accordance with this object, the present invention is to electrically connect and install the optical / pre-conversion modules each showing the optimum sensitivity for each wavelength of the laser light, when the predetermined optical pickup laser light is input, such optical / pre-conversion modules The electrical signals generated by reacting differently from each other are used to accurately monitor the wavelength and intensity of laser light currently being used in the optical pickup apparatus.

To this end, the optical pickup laser light monitor device of the present invention, at least two or more to respond to differently depending on the size of the wavelength of the optical pickup laser light incident from the outside to generate and output an electrical signal corresponding thereto, respectively. Photoelectric conversion module;

A laser light voltage generation unit configured to signal-process an electrical signal output from each of the at least two light / electric conversion modules to generate a predetermined laser light voltage corresponding to a wavelength of the optical pickup laser light;

The signal generator for controlling the light intensity generated by the laser light voltage generation unit corresponding to the wavelength to generate a signal corresponding to the wavelength to control the intensity of the laser light for the optical pickup through the laser light voltage and the input reference voltage It is desirable to make it.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

First, referring to Figure 3 will be described a monitor device for the laser beam for optical pickup according to the present invention.

Here, reference numeral 300 denotes at least two elements which react with each other differently according to the wavelength of a predetermined optical pickup laser light emitted from an outside, in particular, a laser diode in an optical pickup device, to generate and output electrical signals corresponding thereto. The photoelectric conversion unit consisting of more than one photoelectric conversion module (300-1, 300-2, 300-3, ..., 300-n).

In addition, reference numeral 400 denotes an electrical signal output from each of the at least two photoelectric conversion modules 300-1, 300-2, 300-3, ..., 300-n according to an input power supply voltage. A laser beam voltage generation unit is configured to generate a predetermined laser beam voltage corresponding to each wavelength of the incident laser beam for pickup.

Finally, the reference numeral 500 generates an optical disc corresponding to a wavelength for generating a signal for adjusting the intensity of the laser beam for optical pickup using a predetermined laser light voltage generated by the laser light voltage generation unit 400 and an input reference voltage. A signal generation unit for controlling the light intensity output to the driver, and the generated signal is applied to a predetermined laser diode which is a laser light output source based on this, for example, by an auto power control circuit (APC) in the optical disk driver. By controlling the signal power automatically to adjust the intensity of the laser light used in the optical pickup device.

The operation of the monitor device of the present invention, first, the light / pre-conversion module (300-1, 300-2, 300-3, ..., 300-n) that shows the optimum sensitivity different for each wavelength of the laser light is provided The optical / electric conversion module 300-1, 300-2, and 300-when the laser light for reproducing / recording an optical disk used in the optical pickup device is incident to the optical / electric conversion unit 300 that is electrically connected. 3,..., 300-n) have different reactions and generate respective currents, and most of the generated currents have corresponding photo / electric conversions which show optimum sensitivity to the wavelength of the incident laser light. Since it occurs in the module, it is possible to recognize the information required in the present invention, for example, the wavelength of the laser light currently used in the optical pickup device and the intensity thereof.

Of course, the current is also generated in other photoelectric conversion modules, but the amount is considerably insignificant compared to the current generated in the corresponding photoelectric conversion modules, and thus the generated current has a relative meaning. Since it is possible to accurately recognize the wavelength of the laser light and the intensity thereof, there is no problem at all.

In more detail, when the laser light having a wavelength of 780nm is incident, each of the photo / electric conversion modules generates a current amount, which is generated by the corresponding optical / electric conversion module showing the optimum sensitivity to the wavelength of 780nm. The current amount occupies a considerable amount, but the amount of current generated in other photoelectric conversion modules is also added thereto. Similarly, even when a laser light of a different wavelength is incident, for example, when a laser light having a wavelength of 650 nm is incident, the amount of current generated by the corresponding light / electric conversion module is insignificant in the other light / electric conversion modules. Since the amount of generated current is added, it is not a problem to accurately recognize the wavelength of the incident laser light and its intensity when the two added results are determined relatively.

On the other hand, when a current is generated in the at least two photoelectric conversion module (300-1, 300-2, 300-3, ..., 300-n), the laser light voltage generation unit 400 signals them Processing to generate a predetermined laser light voltage, which is a relative value corresponding to the wavelength of the incident optical disk reproducing / recording laser light.

Finally, the light intensity control signal generator 500 of the present invention uses the relative values described above, that is, by using a predetermined laser light voltage generated by the laser light voltage generation unit 400, the optical disk playback / recording By generating a signal to adjust the intensity of the laser light for the correspondingly variable and output to the optical disk driver, the optical disk driver can adjust the intensity of the laser light for optical disk playback / recording more accurately according to the wavelength of the laser light. .

For example, by electrically connecting with an auto power control circuit (APC) in an optical disk driver, the auto power control circuit is applied to a predetermined laser light emitting diode as a laser light output source based on the output signal. It automatically controls the signal power to be able to adjust the intensity of the laser light for optical disk playback / recording.

As described above, the present invention electrically connects and installs optical / electric conversion modules each having an optimum sensitivity for each wavelength of the laser light, so that when a predetermined optical pickup laser light is input, each of these optical / electric conversion modules is used. By using the electrical signals generated by reacting differently from each other, it is possible to accurately monitor the wavelength and the intensity of the laser light currently used in the optical pickup device.

Next, with reference to FIG. 4, the 1st Example of the laser beam voltage generation part shown in FIG. 3 and used for this invention is demonstrated.

First Embodiment

As shown in FIG. 4, the laser light voltage generation unit 400 according to the first embodiment of the present invention adds currents respectively output from the at least two photoelectric conversion modules and converts them into voltages. An amplifying voltage obtained by the addition and I / V converter 410 and the voltage converted by the adder and I / V converter 410, that is, a voltage of a predetermined level value, i.e., an incident optical disk reproducing / recording The first voltage amplifier 411 outputs a laser light voltage having a predetermined level value corresponding to the wavelength of the laser beam to the light intensity control signal generator.

The laser beam voltage generation unit 400 according to the first embodiment of the present invention has an optimum sensitivity to different wavelengths of laser beams due to incident of a predetermined optical disk reproducing / recording laser beam used in the optical pickup device. When the photo / electric conversion modules representing the different reactions generate and output respective currents corresponding thereto, the output current is added through the addition and I / V conversion unit 410 without the need for a separate switching device. To add through the voltage and convert it to a voltage, and to amplify the converted voltage by a desired set amplification degree through the first voltage amplifier 411 to generate a laser light voltage of a predetermined level value used in the present invention Electrically connected and installed, it can be easily implemented at low cost.

5 is a diagram illustrating a second embodiment of the laser light voltage generation unit, which will be described with reference to FIG. 3 to describe a second embodiment of the laser light voltage generation unit used in the present invention.

Second Embodiment

A second embodiment of the present invention converts the current output from each of the photoelectric conversion modules into voltage in advance and then amplifies them through a predetermined voltage amplifier to generate a laser light voltage. As shown in FIG. Laser light voltage generation unit 400 of the present invention according to the second embodiment, at least two or more I / V conversion for converting the electrical signal output from the at least two or more optical / pre-conversion module to voltage 420-1, 420-2, 420-3, ..., 420-n, and the at least two I / V converters 420-1, 420-2, 420-3, ... And a second voltage amplifier 421 for amplifying the voltage converted by 420-n.

The laser light voltage generation unit 400 according to the second embodiment has the above-described light / optical laser beam for reproducing / recording a predetermined optical disk used in the optical pickup device and exhibits optimal sensitivity different for each wavelength of the laser light. When the pre-conversion modules show different reactions and generate and output currents corresponding thereto, each of the plurality of I / V conversion units 420-1, 420-2, 420-3, ..., 420-n Electrically converting the current output from the photoelectric conversion module into a voltage, and amplifying the voltages by a predetermined level value through a second voltage amplifying part to generate a predetermined laser light voltage used in the present invention. Although connected and installed, the cost is increased relatively than in the first embodiment, but a laser beam voltage of a predetermined level value is generated which is more accurate.

Next, the light intensity control signal generator 500 shown in FIG. 3 and used in the present invention will be described with reference to FIG. 6.

As shown in FIG. 6, the light intensity control signal generator 500 of the present invention subtracts a laser light voltage generated by the laser light voltage generator 400 from a predetermined reference voltage and corresponds thereto. And a third voltage amplifier 520 for amplifying the signal output from the subtractor 510 by a predetermined level and outputting the amplified signal to the optical disk driver. The intensity control signal generator 500 subtracts the laser light voltage and a predetermined reference voltage input from the laser light voltage generator, amplifies the result of the subtraction of the third amplifier by a predetermined level value, and outputs the result to the optical disk driver. Connected and installed so that the optical disk driver can adjust the intensity of the laser light correspondingly according to the corresponding wavelength of the predetermined optical disk reproduction / recording laser light.

On the other hand, in the present invention, as shown in Figure 7, in order to be able to variably adjust the laser light voltage generated by the laser light voltage generation unit according to the user's selection, the laser light voltage unit and the light intensity control signal generation It is preferable to further include a user resistance control unit 600 between the parts, the user resistance control unit 600 is electrically variable variable unit 610 between the laser light voltage unit and the light intensity control signal generation unit, and It is preferable to form the variable resistance adjusting unit 620 for adjusting the resistance value of the variable resistor unit 601 according to a user's selection so as to be connected and installed in series therewith.

Next, FIG. 8 illustrates a circuit diagram in which the laser light voltage generation unit 400 of FIG. 3 is specifically implemented.

As shown in the drawing, a predetermined OP amplifier in the laser light voltage generation unit of the present invention, the electrical signals output from each of the at least two or more photoelectric conversion module, for example photodiode PD, one electrical The differential voltage and I / V conversion are received by inputting the power supply voltage, which has been voltage-dropped by the predetermined value through the inverting (-) terminal and the series connected resistor (R1), to the non-inverting terminal (+). The predetermined amplification resistance adjusting resistor R2 is connected to the inverting terminal (-) of the OP amplifier by feedback to adjust the amplification degree of a signal for differential amplification and I / V conversion in the OP amplifier.

9 is a circuit diagram specifically illustrating the light intensity control signal generator 500 of FIG. 3 as an example. As shown therein, in the light intensity control signal generator of the present invention, The OP amplifier converts the laser light voltage generated by the laser light voltage generator into the inverting terminal (-) and the reference voltage in which the voltage is dropped by a predetermined value according to the resistor R3 connected in series to the non-inverting terminal (+). Each of them is inputted and differentially amplified and I / V converted and output to the optical disk driver. It is preferable to be connected and installed to adjust the amplification degree of the signal which is differentially amplified and I / V conversion in the OP amplifier.

As described in detail above, the monitor device for the laser beam for optical pickup according to the present invention, even if a variety of laser lights of different wavelengths are used, irrespective of it, and accurately monitor the laser light with high sensitivity for each wavelength to adjust its intensity It has an effect so that.

Although the invention has been described in detail only with respect to the specific examples described, it will be apparent to those skilled in the art that various modifications and variations are possible within the spirit of the invention, and such modifications and variations belong to the appended claims.

Claims (7)

At least two optical / electric conversion modules for reacting differently according to wavelengths of the optical pickup laser light incident from the outside and outputting signals corresponding thereto; A laser light voltage generation unit configured to receive signals output from the at least two photoelectric conversion modules and generate laser light voltages corresponding thereto; And a light intensity control signal generator for generating an intensity control signal of an optical disk reproducing / recording laser light using the laser light voltage generated by the laser light voltage generation unit and an input reference voltage and outputting the signal to the optical disk driver. The light intensity control signal generator A subtraction unit for generating an intensity control signal of the optical disk reproducing / recording laser light by subtracting the laser light voltage generated by the laser light voltage generating unit and an input reference voltage; And a voltage amplifier configured to amplify the signal generated by the subtractor and output the amplified signal to the optical disk driver. The method of claim 1, wherein the laser light voltage generation unit; An adder and an I / V converter for adding electrical signals respectively output from the at least two photoelectric conversion modules and converting them into voltages; A first voltage amplifier which amplifies the voltage converted by the addition and I / V converter by a predetermined level and outputs the laser light voltage corresponding to the wavelength of the optical disk reproducing / recording laser light to the light intensity control signal generator; The monitoring apparatus of the laser beam for optical pickup characterized by including. The method of claim 1, wherein the laser light voltage generation unit; At least two I / V conversion units for converting electrical signals output from the at least two photoelectric conversion modules into voltage; And a second voltage amplifier configured to amplify the voltage converted by the at least two I / V converters and output the amplified voltage to the signal generator for controlling the light intensity. delete The method according to any one of claims 1 to 3, And a user resistance control unit between the laser light voltage generation unit and the light intensity control signal generation unit. The method of claim 1, wherein the laser light voltage generation unit; An OP amplifier for receiving an electrical signal and a power supply voltage respectively output from the at least two photoelectric conversion modules and for differential amplification and I / V conversion; And an amplification degree adjusting resistor connected to feedback from an output terminal of the OP amp to adjust an amplification degree of a signal for differential amplification and I / V conversion in the OP amp. The method of claim 1, The subtraction unit includes an OP amplifier which receives the laser light voltage and the reference voltage generated by the laser light voltage generation unit and differentially amplifies and I / Vs and outputs them to the optical disk driver. The voltage amplifier includes at least one amplification degree adjusting resistor connected to the output terminal of the OP amplifier and feedback to adjust the amplification degree of the signal differentially amplified and I / V conversion in the OP amplifier, characterized in that for monitoring the optical pickup laser light Device.

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