KR20020072892A - Apparatus for recording data on disc - Google Patents

Abstract

PURPOSE: An optical disc recording device is provided to set an initial voltage value to an approximate value to a desired voltage value by an upper diode according to a value calculated by a digital/analog converter, thereby outputting a precise light amount at a precise time point for improving the precision of the recording system. CONSTITUTION: An optical disc recording device includes a signal processing part for supplying signals to record, a light source driving part for driving a light source according to the supplied signal, and an initial voltage applying element for applying an initial voltage of the light source driving part between the signal processing part and the light source driving part, wherein the initial voltage applying element is formed of a power supply source and diodes(3,4).

Description

Optical Disc Recording Device {Apparatus for recording data on disc}

The present invention relates to an optical disc recording apparatus.

As a digital information storage medium, optical discs, such as commercially available CDs (Compact Discs), and DVDs (Digital Versatile Discs) in which a large amount of information is stored are compared to CDs. These optical discs can be read-only ROM (eg CD-ROM, DVD-ROM) for playback only and write once read many (WORM) type (eg CD-R, DVD-R) and rewritable types (CD-RW, DVD-RAM).

In the case of the WORM type or the rewritable type (for example, in the case of a CD-R / RW drive), an RF signal processor (RF chip) 1 as shown in the block diagram of FIG. 1 to generate an optical output of a desired intensity. The corresponding voltage is applied to the laser drive 2 from ().

FIG. 2 is a schematic view of a conventional optical output generator. The desired optical output is calculated by the RF chip 1 and the set value is applied to the laser drive unit 2. The laser drive 2 converts an applied voltage value into a current and sends it to a pickup (not shown). At this time, the diode 3 connected to the lower end between the RF chip 1 and the laser drive 2 serves to adjust the set voltage value so as not to exceed a certain upper limit.

However, since the initial voltage is “0”, the voltage applied to the laser drive 2 is inevitably physically avoiding some rising time to satisfy the corresponding voltage value. ("T delay" in Figure 3)

The time delay effect due to the rising time occurring in this manner has the following practical problems.

It is important for the recorder to record the correct signal on the optical disc recording surface when the desired amount of light output is generated at a desired time. However, in the conventional method, since the initial value is set to "0" as described above, the desired amount of light is accurately controlled. This is possible only after some time delay before recording.

In such a situation, it is impossible to project the laser light of the desired intensity to the desired position on the actual disk, so playing back the recorded disk and analyzing the signal waveform (RF waveform) can adversely affect the physical quantity characteristics such as jitter. There will be no. Eventually, the recording command is given exactly at the desired time, but the light intensity of the desired intensity is actually possible only after a certain amount of time is delayed.

An object of the present invention is to improve the accuracy of a recorder by providing an accurate amount of light at an accurate time in order to solve such a problem.

1 is a conventional light output generation block diagram;

2 is a schematic diagram of a conventional light output generator;

3 is a timing chart of an optical output according to FIG. 2;

4 is a light output generator according to the present invention,

5 is a timing chart of the light output according to FIG. 4;

In order to achieve the above object, the optical disk recording apparatus according to the present invention includes a signal processor for supplying a signal to be recorded, and a light source driver for driving a light source according to the supplied signal, and a light source driver between the signal processor and the light source driver. Characterized in that it comprises an initial voltage applying means for applying an initial voltage of.

Hereinafter, an embodiment according to the present invention will be described with reference to FIGS. 4 to 5.

4 shows a block diagram of an optical output device according to the present invention. As shown in FIG. 4, the diode 4 is added to the conventional block diagram. This added diode 4 serves to set the initial voltage value to the control voltage applied between the two devices, thereby enabling fast voltage tracking.

This will be described in detail as follows.

The first voltage applied to the RF Chip 1 is called V ctrl (actual initial value is V ctrl = 0). The voltage value finally applied to the laser drive 2 is referred to as V out. The voltage value supplied to the lower diode 3 is called V upper. The voltage value supplied to the upper diode 4 is called V lower.

First, the role of the diode 3 at the bottom in the conventional scheme of FIG. 2 is as follows.

By the characteristics of the diode,

If V ctrl <V upper, then the output V out = V ctrl.

If V ctrl> V upper, or if V ctrl = V upper,

The output V out = V upper + 0.7 (V).

Therefore, the diode (3) at the bottom always gives the desired light output V ctrl (= 0), and if V ctrl is excessively over a certain amount, it is always constant by saturating to V upper + 0.7 (V). It controls the amount of light.

In the conventional method, it is possible to simply control the light output at a desired level. However, in order to have this value, since the initial value is "0", there is a problem that a time delay is caused until the rising time.

Next, it will be described that the time delay is reduced through the role of the diode 4 of the upper end in the present invention.

Depending on the characteristics of the diode operates as follows.

If V ctrl> V lower, output V out is V out = V lower.

If V ctrl <V lower, or V ctrl = V lower, output Vout is

V out = V lower-0.7 (V).

As a result, in the related art, since the initial voltage value is set to 0 V, a time delay due to a time constant is inevitable to reach a desired voltage. However, in the present invention, an initial voltage corresponding to a desired optical output voltage is inevitable. If the value is calculated by DAC (Digital to Analog Converter) (not shown) and applied to V lower, it is possible to follow the desired voltage value quickly as shown in FIG. 5.

For example, if you want to apply an optical output voltage of 3 (V), apply 3 (V), which is the appropriate initial voltage value in DAC, to V lower and V upper, and the actual output Vout is 2.3 (V). It works so that you can start with the initial values. Therefore, if the appropriate V lower value is applied, it is possible to reach the desired voltage value 3 (V) within a very short time by setting the initial voltage value to about 2.7 to 2.9 (V).

As mentioned above, although one Embodiment of this invention was described, this invention is not limited only to the said Example, It can implement by a sufficient correction or modification within the range which does not deviate from the summary of this invention.

As described above, according to the present invention, since the initial voltage value of the upper diode is set to be close to the desired voltage value based on the value calculated in the DAC, even in a situation having the same time constant, the present invention is faster than the conventional method. It is possible to follow the desired output value. Accordingly, it is a useful invention that can improve the accuracy of the recorder by outputting a precise amount of light at a very accurate time.

Claims (2)

In the optical disk recording apparatus, A signal processor for supplying a signal to be recorded; A light source driver for driving a light source according to the supplied signal; And initial voltage applying means for applying an initial voltage of the light source driver between the signal processor and the light source driver. The method of claim 1, And said initial voltage applying means comprises a predetermined power supply source and a diode.