KR100524953B1 - Apparatus and method for measuring of optical recoding device - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to an apparatus and method for operating an optical recording device, and more particularly, to an optical recording for predicting the temperature of the device from an APC output for maintaining a constant output power of a laser diode and setting operating values of the device suitable for the temperature. A temperature measuring apparatus and method of an apparatus are provided. The temperature measuring device of the optical recording device acquires APC means for monitoring the light amount of the optical pickup and outputting a power control signal for keeping the output power of the laser diode constant, temperature information proportional to the power control signal of the APC means, And control means for resetting the operation value of the optical recording device in accordance with the obtained temperature information. According to the present invention, since it is possible to measure the temperature of the current optical recording device without using a separate temperature sensor, there is a cost reduction effect, and in the case of a system that is spatially constrained, it is necessary to secure a space for mounting the temperature sensor. Create an effect that does not.

Description

Apparatus and method for measuring of optical recoding device

The present invention relates to an apparatus and method for operating an optical recording device, and more particularly, to an operating value of a device suitable for temperature by predicting the temperature of the device from an APC (Auto Power Control) output for maintaining a constant output power of the laser diode. The present invention relates to a temperature measuring apparatus and method for an optical recording device that sets the temperature.

FIG. 1 is a block diagram showing the configuration of a temperature measuring device in a conventional optical recording device, and is composed of an optical pickup 100, a temperature sensor 101 and a control unit 102. As shown in FIG. Since the optical recording device exhibits a large number of characteristic changes depending on temperature, for example, a shift in the laser wavelength causes the recording power to fluctuate, it is necessary to accurately determine the current temperature and set values corresponding to the temperature. Currently, a method of measuring the temperature by attaching the temperature sensor 101 near the optical pickup 100 is used. The temperature information measured by the temperature sensor 101 is input to the controller 102, and the controller 102 sets and outputs a value corresponding to the temperature information, for example, a recording power variation value of the laser diode.

Such an optical recording device is provided with a temperature sensor 101 for measuring the temperature around the optical pickup 100 separately, which causes inefficiency in terms of cost and space utilization.

The technical problem to be achieved by the present invention is to measure the temperature of the optical recording device to predict the temperature of the device from the APC (Auto Power Control) output to maintain the output power of the laser diode to set the operating values of the device suitable for the temperature To provide a device.

Another technical problem to be solved by the present invention is to predict the temperature of the device from the APC (Auto Power Control) output to keep the output power of the laser diode constant and to set the operating value of the device suitable for the temperature of the optical recording device To provide a measurement method.

The temperature measuring device of the optical recording device for solving the technical problem to be achieved by the present invention is an optical recording device, APC means for monitoring the amount of light of the optical pickup and outputting a power control signal to keep the output power of the laser diode constant ; And control means for acquiring temperature information proportional to the power control signal of the APC means, and resetting the operation value of the optical recording device in accordance with the obtained temperature information.

In the present invention, the control means comprises: a first table storing temperature information proportional to a power control signal of the APC means; And a second table storing operation setting information of the optical recording device according to the temperature information.

The temperature measuring method of the optical recording device to solve another technical problem to be achieved by the present invention is an optical recording device operation method, (a) the output of the APC block to keep the output power of the laser diode constant when the optical pickup is operated Receiving; And (b) acquiring temperature information proportional to the output signal of the APC block and resetting an operation value of the optical recording device according to the obtained temperature information.

In the present invention, step (b) may include: (b-1) accessing a first table in which temperature information is stored and outputting temperature information proportional to an output signal of the APC block; And (b-2) accessing a second table in which operation information of the optical recording device is stored and outputting operation information of the optical recording device according to the temperature information.

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

2 is a block diagram showing the configuration of the temperature measuring device of the optical recording device according to the present invention, and is composed of an optical pickup 200, an APC block 201, and a control unit 202. As shown in FIG.

3 is a graph showing current versus power characteristics of a laser diode.

4 is a flowchart illustrating an operation of a method for measuring a temperature of an optical recording apparatus according to the present invention, in which an optical pickup is operated at a set value (400), and when an optical pickup is operated, detecting an output signal of an APC block (401). ), Reading the temperature information corresponding to the APC output signal from the internal table (402), and resetting the optical recording device operation value according to the read temperature information to output to the corresponding block (403).

Next, the present invention will be described in detail with reference to FIGS. 2 to 4.

First, referring to FIG. 2, the temperature measuring device of the optical recording device will be described. When the temperature of the laser diode (not shown) inside the optical pickup 200 increases, the output of the light source decreases. Therefore, in order to compensate for this, the APC block 201 automatically monitors the front photo diode (FPD) signal output from the optical pickup 200 to automatically control the power of the laser diode.

The control unit 202 receives the laser diode power control signal output from the APC block 201, calculates the temperature of the current optical pickup, resets the operation value of the optical recording device according to the calculated temperature, and outputs it to the corresponding block. .

The graph (a) of FIG. 3 shows the current versus power characteristics of the laser diode at room temperature, and the graph (b) shows the current versus power characteristics of the laser diode at high temperature. When the temperature of the laser diode changes from room temperature to high temperature, the APC block 200 changes the current of the laser diode from I1 to I2 to keep the output power P1 of the laser diode constant. When the current of the laser diode is changed from I1 to I2, the temperature of the laser diode is changed from room temperature to high temperature.

Although not shown, the control unit 202 includes a first table and a second table. The first table stores temperature information proportional to the power control signal (current conversion signal of the laser diode) output from the APC block 201. For example, temperature information corresponding to the laser diode current I1 or temperature information corresponding to the laser diode current I2 is stored. The second table stores operation setting information of the optical recording device according to the temperature information. For example, the reset value of the laser diode current according to the temperature information corresponding to the I1 current or the reset value of the laser diode current according to the temperature information corresponding to the I2 current is stored.

The controller 202 receives the laser diode power control signal output from the APC block 201, measures the current variation of the laser diode, and outputs corresponding temperature information from the first table. Then, the control unit 202 outputs the operation value of the optical recording device corresponding to the temperature from the second table and outputs it to the corresponding block.

Next, referring to FIG. 4, a method of measuring a temperature of an optical recording device will be described. First, the controller 202 operates the optical pickup 200 to a set value (step 400). When the optical pickup 200 is operated, the internal temperature of the laser diode (not shown) is increased, and when the temperature of the laser diode is increased, the output of the light source is decreased. Therefore, to compensate for this, the APC block 201 automatically monitors the FPD signal of the optical pickup 200 and automatically controls the power of the laser diode.

The controller 202 detects the output signal of the APC block 201 and reads temperature information corresponding to the APC output signal from the internal table (steps 401 and 402). Although not shown, the control unit 202 includes a first table and a second table. The first table stores temperature information proportional to the power control signal (current conversion signal of the laser diode) output from the APC block 201. The second table stores operation setting information of the optical recording device according to the temperature information. The controller 202 receives the laser diode power control signal output from the APC block 201, measures the current variation of the laser diode, and outputs corresponding temperature information from the first table.

The operation value of the optical recording device according to the output temperature information is reset and output to the corresponding block (step 403). The controller 202 outputs an operation value of the optical recording device corresponding to the temperature from the second table and outputs the operation value to the corresponding block.

The present invention is not limited to the above-described embodiments and can be modified by those skilled in the art within the spirit of the invention.

As described above, according to the present invention, since the temperature of the optical recording device can be measured without using a separate temperature sensor, there is an effect of reducing the cost, and in the case of a system that is spatially constrained, Creates an effect that does not require space.

1 is a block diagram showing the configuration of a temperature measuring device in a conventional optical recording device.

2 is a block diagram showing the configuration of a temperature measuring device of the optical recording device according to the present invention.

3 is a graph showing current versus power characteristics of a laser diode.

4 is a flowchart showing the operation of the temperature measuring method of the optical recording device according to the present invention.

Claims (4)

As an optical recording device, APC means for monitoring the amount of light in the optical pickup and outputting a power control signal for keeping the output power of the laser diode constant; And A first table storing temperature information proportional to a power control signal of the APC means, and a second table storing operation setting information of the optical recording device according to the temperature information, wherein the second table is stored in proportion to the power control signal of the APC means. And control means for acquiring temperature information from the first table, and acquiring and resetting the operation value of the optical recording device from the second table in accordance with the acquired temperature information. delete As an optical recording device operating method, (a) receiving an output of an APC block that maintains a constant output power of the laser diode when the optical pickup is operated; And (b) accessing a first table in which temperature information is stored and outputting temperature information proportional to an output signal of the APC block; And (c) accessing a second table in which operation information of the optical recording device is stored and outputting operation information of the optical recording device according to the temperature information. delete