KR20040090806A - Method for recording of optical disc - Google Patents

Abstract

PURPOSE: An optical disk recording method is provided to control a period of a multi-pulse as (2n) T if a channel bit length of a signal is (2n) T, and to control a period of the first or a final multi-pulse as (2n+1) T if the channel bit length is (2n+1) T, then to control a period of the rest multi-pulse as (2n) T. CONSTITUTION: If a channel bit length of a signal to be recorded on an optical disk is (2n) T, a system controls a period of a corresponding multi-pulse as (2n) T. If the channel bit length is (2n+1) T, the system controls a period of the first multi-pulse or a final multi-pulse as (2n+1) T, while controlling a period of the rest multi-pulse as (2n) T. The optical disk is a write-once optical disk or a rewritable optical disk.

Description

Optical disc recording method {Method for recording of optical disc}

The present invention relates to an optical disc recording method for recording a signal onto an optical disc such as a write once DVD, a rewritable DVD, or the like.

A general optical disc recording method, for example, a conventional write strategy for recording a signal on an optical disc such as a write once DVD-R or a rewritable DVD-RW, is illustrated in FIG. As shown in Fig. 2, it is used to prevent the shape of the recording portion from being distorted by the transfer of the thermal effect of the laser used when recording a predetermined signal on the optical disc.

On the other hand, if the laser is used in the same shape as the signal to be recorded on the optical disc, the temperature of the rear end portion is increased by gradual heating while recording the signal, so that the width of the recording portion gradually increases even if the same laser power is maintained. As a result, the shape of the recording portion is distorted.

Therefore, in order to solve this problem, after recording the head part, the following part is used by using a short pulse laser to prevent the shape of the rear part of the recording part from being distorted, which is a multi-pulse write strategy. It is called.

On the other hand, the optical disk recording method using the multi-pulse write strategy as described above has the advantage that the shape of the recording portion can be adjusted very precisely, but it is widely used, but a signal generator having the same frequency as the channel bit of the recording signal must be used. It is necessary.

For example, as shown in FIG. 2, in the case of a write once DVD (RV-R) 10 or a rewritable DVD (DVD-RW) 20, a '1' is associated with a channel bit of a recording signal. One pulse per T ', the first part corresponding to a long pulse of a constant shape, for example, 3 T, corresponds to a pulse of about 1.5 T, and the other part one pulse per 1 T In this case, the recording signals are distributed between 3 T and 14 T, and multi pulses corresponding to each T are arranged to correspond to all of these signals. A signal generator of the same frequency as the channel bit is needed, and as the speed increases, the frequency must also increase accordingly.

However, in the case of the write once DVD (RV-R) 10 and the rewritable DVD (RW-RW) 20, a signal generator of 26.2 MHz frequency is required based on the 1x recording speed. In addition, as the recording speed increases, the frequency of the signal generator must also increase, so that the price of the signal generator increases with the increase of the frequency, and the limit of the current technology is about 200 MHz. There is a problem in that it becomes difficult to cope with higher recording speeds.

Accordingly, the present invention was created to solve the above problems, and even when a signal is recorded at an optical recording speed such as a write once DVD or a rewritable DVD, etc. It is an object of the present invention to provide an optical disc recording method for more stably suppressing frequency increase.

1 and 2 show an embodiment of a general optical disc recording method,

Fig. 3 shows an embodiment of the optical disc recording method according to the present invention.

4 shows another embodiment of the optical disc recording method according to the present invention.

※ Explanation of code for main part of drawing

10: DVD recordable once

20: Divadi available for re-recording

In the optical disc recording method according to the present invention for achieving the above object, if the channel bit length of the signal to be recorded on the optical disc is (2n) T, the period of the multi-pulse corresponding thereto is adjusted to (2n) T When the length of the channel bit is (2n + 1) T, the period of the first multi-pulse or the last multi-pulse is adjusted to (2n + 1) T, but the period of the remaining multi-pulse is (2n) T. Adjusting the signal to record on the optical disc,

Further, in the optical disk recording method according to the present invention, when the channel bit length of the signal to be recorded on the optical disk is (3n) T, the period of the multi-pulse corresponding thereto is adjusted to (3n) T, the length of the channel bit If (2n) T, the period of the first multi-pulse or the last multi-pulse is adjusted to (2n) T, but the period of the remaining multi-pulse is adjusted to (3n) T to record the signal on the optical disc It is characterized by.

Best Mode for Carrying Out the Invention Preferred embodiments of the optical disc recording method according to the present invention will be described in detail with reference to the accompanying drawings.

Fig. 3 shows an embodiment of an optical disc recording method according to the present invention. In the embodiment of the present invention, for example, a multi-pulse for recording a signal on a recordable DVD or a rewritable DVD, It does not correspond to every 1T conventionally, but instead corresponds to several T.

Then, the length of the pulse at the head or tail of the remaining excess and deficiency corresponding to the plurality of Ts is adjusted. For example, when the channel bit length of the signal to be recorded on the optical disk is (2n) T, Adjust the period of the multi-pulse to be (2n) T, and if the length of the channel bit is (2n + 1) T, adjust the period of the first multi-pulse or the last multi-pulse to (2n + 1) T The period of the remaining multi-pulse is adjusted to (2n) T to record the signal on the optical disc.

That is, as shown in FIG. 3, when the channel bit length of the recording signal is 8T, the period of the multi-pulse corresponding thereto is adjusted to 2T to record the 8T signal on the optical disc. When the length of the channel bit is 7T, the period of the first multi-pulse is adjusted to 3T, but the period of the remaining multi-pulse is adjusted to 2T, thereby recording the 7T signal on the optical disk. .

Therefore, compared with the conventional technique using a multi-pulse corresponding to 1 T. Due to the application of the present invention using a multi-pulse corresponding to 2 T, the frequency of the multi-pulse is reduced to about 50% of the channel bits. It is possible to effectively reduce the frequency burden of the signal generator for generating the multi-pulse.

On the other hand, Figure 4 shows another embodiment of the optical disc recording method according to the present invention. In another embodiment of the present invention, for example, multi-recording for recording a signal on a recordable DVD or a rewritable DVD, for example. The pulses are not made to correspond to each T as in the prior art, but instead to the plurality of Ts.

Then, the length of the pulse at the head or tail of the remaining excess and deficiency corresponding to the plurality of Ts is adjusted. For example, when the channel bit length of the signal to be recorded on the optical disk is (3n) T, If the period of the multi-pulse is adjusted to (3n) T and the length of the channel bit is (2n) T, the period of the first multi-pulse or the last multi-pulse is adjusted to (2n) T, but the remaining multi-pulse By adjusting the period of (3n) to T, the signal is recorded on the optical disc.

That is, as shown in FIG. 4, when the channel bit length of the recording signal is 9T, the period of the multi-pulse corresponding thereto is adjusted to 3T to record the 9T signal on the optical disc. When the length of the channel bit is 8T, the period of the first multi-pulse is adjusted to 2T, but the period of the remaining multi-pulse is adjusted to 3T, and the 9T signal is recorded on the optical disc. .

Therefore, compared with the conventional technique using a multi-pulse corresponding to 1 T. Due to the application of the present invention using a multi-pulse corresponding to 3 T, the frequency of the multi-pulse is reduced to about 70% of the channel bits. It is possible to effectively reduce the frequency burden of the signal generator for generating the multi-pulse.

Or more, preferred embodiments of the present invention described above, for the purpose of illustration, those skilled in the art, within the technical spirit and the technical scope of the present invention disclosed in the appended claims below, to further improve various other embodiments Changes, substitutions or additions will be possible.

In the optical disc recording method according to the present invention, the channel bit length of a signal to be recorded on an optical disc such as a write once DVD, a rewritable DVD, or the like is (2n) T, and the period of the multi-pulse corresponding thereto is Is adjusted to (2n) T, and if the length of the channel bit is (2n + 1) T, the period of the first multipulse or the last multipulse is adjusted to (2n + 1) T, but the remaining multipulse By adjusting the period of (2n) T to record the signal on the optical disc, or if the channel bit length of the signal to be recorded on the optical disc is (3n) T, the period of the multi-pulse corresponding thereto is (3n) T If the length of the channel bit is (2n) T, adjust the period of the first multi-pulse or the last multi-pulse to (2n) T, but adjust the period of the remaining multi-pulse to (3n) T Recording the signal on an optical disc This makes it possible to more stably suppress the increase in the frequency of the multi-pulse with the increase in the recording double speed, which is a very useful invention that does not require the use of a high frequency signal generator.

Claims (4)

If the channel bit length of the signal to be recorded on the optical disc is (2n) T, the period of the multi-pulse corresponding thereto is adjusted to (2n) T, When the length of the channel bit is (2n + 1) T, the period of the first multi-pulse or the last multi-pulse is adjusted to (2n + 1) T, but the period of the remaining multi-pulse is adjusted to (2n) T. Recording the signal on an optical disc. The method of claim 1, And the optical disc is an optical disc which can be written once or an optical disc which can be rewritable. If the channel bit length of the signal to be recorded on the optical disc is (3n) T, the period of the multi-pulse corresponding thereto is adjusted to (3n) T, When the length of the channel bit is (2n) T, the period of the first multi-pulse or the last multi-pulse is adjusted to (2n) T, but the period of the remaining multi-pulse is adjusted to (3n) T, the signal The optical disc recording method, characterized in that the recording on the optical disc. The method of claim 3, wherein And the optical disc is an optical disc which can be written once or an optical disc which can be rewritable.