Dynamic information storage or retrieval – Control of storage or retrieval operation by a control... – Mechanism control by the control signal
Reexamination Certificate
2002-02-06
2004-03-23
Korzuch, William (Department: 2653)
Dynamic information storage or retrieval
Control of storage or retrieval operation by a control...
Mechanism control by the control signal
C369S116000, C369S275200
Reexamination Certificate
active
06711108
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATION
This application claims the priority benefit of Japanese application serial no. 2001-035920, filed Feb. 13, 2001.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to an optical disc recording apparatus and medium. More particularly, the invention relates to an optical disc recording apparatus and medium for an erasable optical disc.
2. Description of Related Art
The recordable optical disc, in general, comprises a write-once type disc, such as CD-R (Compact Disc-Recordable), and an erasable disc, such as CD-RW (Compact Disc-ReWritable). As shown in
FIG. 5
, the laser power used for the overwrite record for the erasable optical disc is varied among three values, a recording power P
w
an erasing power P
e
and a cooling power P
c
. The recording power P
w
is the power to raise the temperature of a recording layer (phase-change layer) of the erasable optical disc up to its melting point, the cooling power P
c
is a low power for quenching the recording layer from the melting point to a temperature where the recording layer becomes an amorphous state, and the erasing power P
e
is the power to raise the temperature of the recording layer above a glass transition point.
During the recording process of the optical disc, an optimum recording power P
wo
and an optimum erasing power P
eo
respectively vary according to different disc types, recording apparatuses and recording speeds. Therefore, when the recording is actually performed, an operation of recording power calibration, also known as optimum power control (OPC), is performed before recording information, in order to set the optimum recording power P
wo
and the optimum erasing power P
eo
that match the disc type, the recording apparatus and the recording speed.
The conventional OPC operation of an erasable optical recording apparatus is described below. As shown in
FIG. 6
, a data area for storing data, and a test recording area (power calibration area, PCA) for setting an optimum recording power of the laser beam, are arranged on a recording surface of the optical disc. The PCA area is located at the most inner circumference of the optical disc, and composed of a test area and a count area, wherein the test area comprises 100 partitions and each of the partitions includes 15 frames. One OPC operation uses one partition and records a test signal by a 15-step laser power corresponding to the 15 frames. The test signal is an eight-to-fourteen modulation (EFM) signal composed of a pulse train with a time interval that is 3~11 times a base time interval T. The base time interval T is a standard speed (1×), and a period of frequency 4.32 MHz and of about 230 nsec. In addition, 9 pits with different lengths are recorded in the frame.
By illuminating the frame with the laser beam and detecting the reflecting beam from the optical disc, the test signal is reproduced and the modulation m, used as an indication for showing the amplitude of the respective reproducing RF signal, is determined. The determination of the modulation m utilizes the reproducing RF signal before AC coupling.
m=I
11
/I
top
(1)
As shown in
FIG. 7
, I
11
represents a reproducing RF (radio frequency) signal from the pit and land (portions between the pit and the land) of 11T, I
3
represents a reproducing RF signal from the pit and land of 3T, and I
top
represents a mirror reflecting lever of the land portion. The modulation degree m varies corresponding to the recording power P
w
. When the recording power P
w
is low, the modulation degree m is smaller due to the small amplitude of the reproducing RF signal. As the recording power P
w
becomes larger, the modulation degree m becomes large because the amplitude of the reproducing RF signal also becomes large.
When the optimum recording power P
wo
is determined by the modulation degree m, the following parameter &ggr; calculated from the characteristic of the modulation degree m is used.
&ggr;=(
dm/dP
w
)×(
P
w
/m
) (2)
Namely, the parameter &ggr; is the differential of the characteristic of the modulation degree. A target value &ggr;
target
of the parameter &ggr; is recorded in advance in the optical disc, serving as an absolute time in pregroove (ATIP) information. As shown in
FIG. 8
, the characteristic of the parameter &ggr; is calculated by the equation (2) above from the characteristic of the modulation degree m, and the target value &ggr;
target
is then used to calculate the target recording power P
target
.
In addition, because a coefficient &rgr;, the ATIP information, used for calculating the optimum recording power P
wo
from the target recording power P
target
has been previously recorded, the optimum recording power P
wo
can be calculated by using the coefficient &rgr; according to the following equation (3).
P
wo
=&rgr;×P
target
(3)
The optimum recording power P
wo
is set to the recording power and used for recording signals. Additionally, in the following equation (4), the optimum erasing power P
eo
is set from the optimum recording power P
wo
by using a constant coefficient &egr; (a ratio of the erasing power over the recording power) of the ATIP information recorded in the optical disc. The cooling power P
c
is a constant power.
P
eo
=&egr;×P
wo
(4)
In the conventional recording and erasing methods described above, the method, where the optimum recording power P
wo
is determined by the OPC operation, the optimum erasing power P
eo
is calculated by multiplying the optimum recording power P
wo
with the coefficient &egr; and the cooling power is a constant, uses few parameters and is easily set. However, under the combination of the optical disc and the optical pick up, recording power is affected by dispersion. Therefore, when the recording power increases, the erasing power becomes large and thus the total of the recording and erasing powers also increases. As a result, the durability, that the optical disc can be repeatedly recorded, degrades. In contrast, due to the dispersion influence on the recording power, when the recording power decreases, the erasing power also becomes small, causing a problem where the erasing property gets worse. The durability, that the optical disc can be repeatedly recorded, represents how many times the data can be recorded at the same location on the optical disc, and regarding the data being reproduced after being recorded, the durability means the recording times that both the jitter and the modulation degree m satisfy the preset specification.
SUMMARY OF THE INVENTION
Therefore, it is an object to overcome the foregoing issues by providing an optical recording apparatus and an optical recording medium. Under the combination of the optical disc and the optical pick up, even if the dispersion of the recording power becomes large, the degradation of the durability, that the optical disc can be repeatedly recorded, can be suppressed. In addition, even if the dispersion of the recording power becomes small, the erasing power is not smaller than a certain range, which prevents the erasing property from getting worse.
According to the above and other objectives, the present invention provides an optical recording apparatus used for recording an erasable optical disc, comprising a means for calculating an optimum recording power, capable of varying a recording power to perform a recording process on a test recording area of the erasable optical disc, and then calculating an optimum recording power according to signals obtained by reproducing the test recording area; and a means for calculating an optimum erasing power from the optimum recording power and a coefficient corresponding to the optimum recording power. Thereby, the optimum recording power and the optimum erasing power are used for recording the erasable optical disc. In addition, the coefficient becomes smaller when the optimum recording power becomes larger. The coefficient corresponds to the optimum recording power for setti
Ishimori Yasuhide
Mashimo Akira
J.C. Patents
Korzuch William
Le Kim Lien T.
TEAC Corporation
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