KR20060092642A - Method for compensation of recording power on re-writable media in optical recording device and the device used thereto - Google Patents

Abstract

The present invention includes the steps of recording an initial VWDC voltage immediately after the start of recording; Amplifying the difference between the recorded VWDC voltage and the recorded initial VWDC voltage with a predetermined gain after the start of recording; Compensating the recording power of the VWDC2 channel by adding the gain amplified voltage and the reference voltage of the VWDC2 channel immediately before the start of recording to provide a recording power compensation method.

The present invention also provides a D / A converter 16 for setting the reference power of the VWDC2 channel immediately before recording is started, a D / A converter 15 for setting an initial VWDC channel voltage value for temperature compensation immediately after recording is started. A gain control amplifier 17 which amplifies the difference between the VWDC voltage rising with the temperature increase after the start and the VWDC voltage output from the D / A converter 15 to a predetermined set gain; And an adder (18) for adding the output of the gain control amplifier (17) and the output voltage of the D / A converter (16).

Record power, reward

Description

Method for Compensation of Recording Power on Re-writable Media in Optical Recording Device and The Device used

1 is a block diagram of a recording power control apparatus using a conventional ALPC circuit

2 is a temperature characteristic diagram of a laser diode

Figure 3 is a laser diode output signal diagram according to the temperature compensation of the VRDC, VRDC2 channel in the rewritable media

4 is a block diagram of a recording power control device according to the present invention;

5 is a flow chart of a temperature compensation process presented as a preferred embodiment according to the present invention.

<Code Description of Main Parts of Drawing>

9: D / A converter (for VRDC channel) 10: ALPC (for VRDC channel) circuit

12: D / A converter (for VWDC channel) 13: ALPC (for VWDC channel) circuit

15: D / A converter (for VREF channel) 16: D / A converter (for VWDC 2 channel)

17: gain control amplifier 18: adder

19: Laser Drives and Laser Diodes (LDD & LD)

The present invention relates to a method of controlling the recording power of a rewritable media in an optical recording apparatus, and more particularly, to compensate for a deterioration of recording quality due to a change in temperature characteristics of a pickup that occurs with a long time recording in a rewritable media. A control method and apparatus for recording power that can be used.

Optical recorders provide automatic control of the laser power required to record data on recordable discs such as CD-R, CD-RW, DVD + R, DVD-R, DVD + RW, DVD-RW, etc. Laser Power Control) circuit.

Figure 1 shows a schematic configuration diagram of a power control device using a conventional ALPC circuit.

In the normal optical recording recording channel, there are three channels of VRDC, VWDC, and VWDC2, and the VRDC channel is a D / A converter (denoted DAC_VRDC) (1), an ALPC circuit for VRDC (2), and a VRDC level sample hold. It consists of (3).

The VRDC channel is controlled to form a feedback loop according to the value set in the D / A converter 1 so that the level of the VRDC voltage is kept constant during recording.

The VWDC channel consists of a D / A converter 4 (denoted DAC_VWDC), an ALPC circuit for VWDC (5), and a VWDC level sample hold (6), and the value set in the D / A converter (4) for the VWDC channel. By forming a feedback loop, the level of the VWDC voltage is kept constant during writing.

The VWDC2 channel is an open loop, and the value set in the D / A converter 7 (denoted DAC_VWDC2) is output as the channel voltage as it is.

In the case of recording of rewritable media such as CD-RW, DVD + RW, DVD-RW, VRDC is the voltage for read power level, and VRDC + VWDC is the voltage for erase power level. VRDC + VWDC + VWDC2 is a voltage for a write power level.

Here, when recording to a rewritable media, the VRDC channel is operated in an open loop, the VWDC channel forms a closed loop, and the VWDC2 is operated in an open loop. The read / erase / write power levels are synthesized and output as shown in FIG. 3 in a laser diode drive (LDD) to drive a laser diode according to a logical combination of write pulses.

2 shows a characteristic change with increasing temperature of the laser diode.

Conventional laser diodes start recording at room temperature (25 [deg.] C.), and as the recording time elapses, the heat emitted from the laser diode is not sufficiently cooled through the base of the pickup, especially in an enclosed space. At this time, if the current idd flowing through the laser diode is not increased through the laser diode drive in proportion to the increase in the laser diode temperature due to the heat storage, a constant read / erase / write power level is not maintained. Deterioration occurs.

Therefore, in order to increase the current idd, in particular, the voltages of VWDC and VWDC2 must be increased in proportion to the temperature increase. In other words, if the voltages of VWDC and VWDC2 are increased in proportion to the temperature increase of the laser diode, the current (idd) of the laser diode through the laser diode drive increases and the constant read / erase / write power level is ensured at all times. Compensation will be made. In this case, when the channel is a closed loop, the channel voltage is increased by the ALPC circuit automatically. However, in the case of an open loop such as VWDC2, the DAC_VWDC2 (7) setting value is changed according to the temperature increase of the laser diode. It must be increased for temperature compensation of the VWDC2 channel.

FIG. 3 shows recording pulses output from the laser diode drive 8 when temperature compensation is made during long-term recording of rewritable media CD-RW, DVD + RW and DVD-RW media.

It can be seen that the power levels of VWDC and VWDC2 gradually increase as the recording time elapses. As mentioned above, when recording rewritable media such as CD-RW, DVD + RW, DVD-RW, the VWDC channel is a closed loop, so this channel is automatically compensated for by the ALPC circuit. Since it is a loop, it is necessary to increase the setting value of DAC_VWDC2 (7) for temperature compensation.

In the related art, the voltage of the VWDC channel is increased immediately after the start of recording by the system control micom for temperature compensation of the VWDC2 channel when recording rewritable media such as CD-RW, DVD + RW and DVD-RW. While periodically monitoring the VWDC voltage, there was an inconvenience in that the operation of compensating by increasing the DAC_VWDC2 (7) setting value in proportion to the increase in the VWDC voltage until the end of recording.

SUMMARY OF THE INVENTION The present invention has been presented to overcome the limitations of the prior art as described above, and its object is to record the voltage increase of the VWDC channel by increasing the laser diode temperature for temperature compensation of the VWDC2 channel during recording on a rewritable media. The system micom periodically monitors and eliminates the repetitive calculation process of increasing the VWDC2 voltage in proportion to the increase in the VWDC voltage, thereby reducing the amount of computation of the microcomputer during the recording process and making temperature compensation for the VWDC2 channel more convenient. The present invention provides a method of compensating recording power in a rewritable medium.

Another object of the present invention is to provide a recording power control apparatus for implementing a recording power compensation method in the rewritable media.

In order to achieve the above object, the present invention includes the steps of recording an initial VWDC voltage immediately after the start of recording; Amplifying the difference between the recorded VWDC voltage and the recorded initial VWDC voltage with a predetermined gain after the start of recording; Compensating the recording power of the VWDC2 channel by adding the gain-amplified voltage and the reference voltage of the VWDC2 channel immediately before the start of recording to provide a recording power compensation method.

The present invention also provides a D / A converter 16 for setting the reference power of the VWDC2 channel immediately before recording is started, a D / A converter 15 for setting an initial VWDC channel voltage value for temperature compensation immediately after recording is started. A gain control amplifier 17 which amplifies the difference between the VWDC voltage rising with the temperature increase after the start and the VWDC voltage output from the D / A converter 15 to a predetermined set gain; And an adder (18) for adding the output of the gain control amplifier (17) and the output voltage of the D / A converter (16).

According to the present invention, it is preferable to provide a recording power control apparatus characterized in that the gain setting in the gain control amplifier 7 is performed by a microcomputer.

According to the present invention, preferably, the set voltage of the D / A converter 15 is provided by the microcomputer.

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

4 is a configuration diagram of a recording power control apparatus according to the present invention. In the recording power control apparatus of the present invention, the VRDC channel is operated in an open loop, and the VWDC channel is the same as the existing recording environment.

The VWDC2 channel is a D / A converter 15 (denoted DAC_REF) that sets the VWDC voltage at the beginning of recording, a D / A converter 16 (denoted DAC_VWDC2), which sets the reference voltage for power of the VRDC2 channel, and a gain control amplifier. (17) and the adder (18).

The DAC_VWDC2 16 sets the reference voltage (or power) of the VWDC2 channel immediately before the start of recording, and the DAC_REF 15 sets the VWDC channel voltage for temperature compensation immediately after the start of recording. At this time, the setting of the VWDC channel voltage in the DAC_REF 15 may be performed by the microcomputer.

The gain control amplifier 17 outputs a signal obtained by amplifying a voltage difference between the VWDC voltage rising as the temperature increases after the start of recording on the optical recording medium and the DAC_REF 15 at which the initial VWDC voltage is set. . In this case, the gain can be simply set by the microcomputer. In this case, the specific value of the gain may be predetermined from the temperature characteristic of the pickup and provided from the microcomputer.

The adder 18 adds the voltage signal whose gain is controlled and amplified in the gain control amplifier 17 to the output voltage of the DAC_VWDC2 16 to provide the VWDC2 control voltage to the laser diode drive 19.

5 shows a temperature compensation process procedure of the VWDC2 channel according to the present invention.

If the media to be recorded on a conventional optical recording apparatus is recognized as a CD-RW, DVD + RW or DVD-RW (step 501), an optimal power calculation (OPC) process is performed accordingly to set the respective channels. The reference power is determined (step 502).

CD-RW and DVD + RW / -RW media use all VRDC, VWDC and VWDC2 channels, where the reference power of the VRDC channel is to DAC_VRDC (9), the reference power of the VWDC channel is to DAC_VWDC (12), and the VWDC2 channel is Reference powers are set in DAC_VWDC2 16, respectively (step 503).

In step 504, it is determined whether or not it is a recording start PSN, and if it is determined as the recording start PSN, recording is started and the system microcomputer measures the voltage of the VWDC channel (step 505).

The resultant voltage measured by the microcomputer is set in the DAC_REF 15 to perform initial setting for temperature compensation of the VWDC2 channel relative to the rise of the VRDC (step 506).

Next, a gain value predetermined by the temperature characteristic of the pickup is set in the gain control amplifier 17 (step 507).

The gain control amplifier 17 amplifies and outputs the difference between the VWDC voltage rising according to the temperature increase and the voltage set in the DAC_REF (15) without the involvement of the system microcomputer after the start of recording with the gain already set to gain and compensates the temperature for the VWDC2 channel. Output the voltage corresponding to the quantity.

The VWDC2 voltage for the temperature compensation is added again through the adder 18 and the voltage for the VWDC2 reference power set in the DAC_VWDC2 16, which is used as the voltage for the VWDC2 channel of the LDD & LD 19, so that the VWDC2 channel rises in the temperature of the VRDC. It has the effect of temperature compensation according to the voltage change.

That is, the present invention is characterized in that the temperature compensation effect of the VWDC2 channel is made only at the initial setting when recording the microcomputer through the above process when recording the rewritable media such as CD-RW, DVD + RW / -RW. After the recording is completed in step 508, the DAC_VRDC (9), DAC_VWDC (12), DAC_REF (15), DAC_VWDC2 (16), and gain control amplifier 17 are all initialized to 0 (steps 509 to 509). Step 511).

As described above, according to the present invention, the temperature compensation of the VWDC2 channel according to the long time recording in the rewritable media such as CD-RW, DVD + RW, DVD-RW, etc. can be achieved simply by the initial setting of the microcomputer and at the same time, Therefore, the recording quality is improved.

In addition, in the conventional optical recording apparatus, the computational processing amount of the microcomputer is increased during recording, but the present invention reduces the burden of the microcomputer due to the reduced involvement of the microcomputer.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that it can be changed.

Claims (6)

Recording an initial VWDC voltage immediately after the start of recording; Amplifying the difference between the recorded VWDC voltage and the recorded initial VWDC voltage with a predetermined gain after the start of recording; Compensating the recording power of the VWDC2 channel by adding the gain-amplified voltage and the reference voltage of the VWDC2 channel immediately before recording starts, and compensating for the recording power of the VWDC2 channel. The method of claim 1, wherein the rewritable media is CD-RW, DVD + RW, or DVD-RW. The method of claim 1, wherein the gain is determined from a temperature characteristic of the pickup and provided from the microcomputer. D / A converter 16 that sets the reference power of the VWDC2 channel just before recording is started, D / A converter 15 that sets the initial VWDC channel voltage value for temperature compensation immediately after recording is started, and temperature after recording is started. A gain control amplifier 17 which amplifies the difference between the VWDC voltage rising with the increase and the VWDC voltage output from the D / A converter 15 to a predetermined set gain; And an adder 18 for adding the output of the gain control amplifier 17 and the output voltage of the D / A converter 16. 5. The recording power control apparatus according to claim 4, wherein the gain setting in the gain control amplifier (7) is performed by a microcomputer. 5. The recording power control apparatus according to claim 4, wherein the set voltage of the D / A converter 15 is performed by a microcomputer.

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