KR20030008854A - Method for detecting the optimal writing power of an optical disc - Google Patents

Abstract

PURPOSE: A method for optimum power control of an optical disc is provided to detect and store an optimum power value for a first speed in advance as an analog audio signal input is detected while power-on, thereby carrying out the first speed recording without any delay as requested. CONSTITUTION: A method for optimum power control of an optical disc includes the steps of checking whether an audio signal is input from the outside to an input terminal as power is supplied to an optical disc device(S10-S20), carrying out the optimum power control for a first speed to detect an optimum power value for the recording at the first speed(S21), and storing the detected optimum power value to a memory(S22).

Description

Method for detecting the optimal writing power of an optical disc

According to the present invention, when an analog signal is input to an external input terminal at power-on or power-on state, an OPC operation for 1x speed is performed in advance, so that a recording operation is performed immediately at a 1x speed recording request. A method of detecting optimal recording optical power of an optical disc.

The recording optical power for the recording operation differs depending on the state or type of the recording medium, the state of the recording device (laser quality, recording strategy, laser type and temperature characteristics, etc.), the recording speed, and so on. The optimal recording optical power value is detected by using the target recording optical power value recorded on the optical disc before the recording operation is performed. For the optimal recording optical power detection (OPC) operation, see the flowchart of FIG. The description is as follows.

In general, since the basic recording speed of the apparatus is set to the maximum recordable speed, when the recordable optical disk (for example, CD-R) is loaded after the operating power is applied (S1) to the apparatus, the basic recording speed of the apparatus, that is, The optimal recording optical power detection (OPC) operation is performed at the highest speed (for example, 4 times speed) (S2).

That is, 15ATIP test data is recorded in the test area of the recordable optical disc while the optical power value is changed by a predetermined size ΔP based on the target recording optical power value recorded on the recordable optical disc which is rotationally driven. When the recording of the test data is completed, the recorded test data of 15ATIP is sequentially read out to detect an optimal recording optical power value for the basic recording speed of the device from its reproduction characteristic (S3).

In the state where the optimal recording optical power value for the basic recording speed of the apparatus is detected as described above, if a recording request is made, it is checked whether the recording is performed at the basic speed (S4). The recording operation is performed using the optimal recording optical power value (S6).

However, in the conventional method for detecting the optimal recording optical power of the optical disc, the power supply is applied to the optical disc device and the optimal recording optical power value for the basic recording speed (highest speed) is unconditionally detected when the recordable optical disc is loaded. If the subsequent data recording request is 1x recording, that is, a recording request for an analog signal input from the outside, the recording speed of the device is set to 1x again and then OPC operation is performed (S5). This is because the analog signal input from outside in real time is difficult to record at the maximum speed, so it is usually recorded at 1 times speed.

However, since the analog signal is already input from the outside in real time even during the OPC operation, the recording of the input analog signal during the time (about 10 seconds) required for performing the OPC operation is performed. There was a problem of not losing.

Therefore, the present invention was created to solve the above problems, and when the input analog signal is detected at power-on or power-on state of the optical disc device, the optimum recording optical power value at 1x speed is detected and stored in advance, It is an object of the present invention to provide an optimal recording optical power detection method of an optical disc that allows a recording operation to be performed immediately at a later 1x recording request.

Figure 1 shows the flow of one embodiment of a conventional optimal recording optical power detection method,

FIG. 2 is a block diagram showing the configuration of an optical disk driver for implementing an optimal recording optical power detection method for an optical disk according to the present invention.

Figure 3 shows the flow of a preferred embodiment of the method for detecting optimal recording optical power of an optical disc according to the present invention,

Fig. 4 shows the data format of the target recording optical power value recorded on the recordable optical disc,

Fig. 5 shows a recording signal test area A of the optical disc and a count area B for recording the test number,

Fig. 6 shows the flow of another embodiment of the method for detecting optimal recording optical power of an optical disc according to the present invention.

※ Explanation of symbols for main parts of drawing

10 optical disc 11: spindle motor

12: optical pickup 20: A / D converter

30a: digital recording signal processor 30b: digital reproduction signal processor

40: channel bit encoder 41: optical driver

50: R / F section 60: servo section

61: drive unit 70: microcomputer

71: memory

According to an aspect of the present invention, there is provided a method for detecting an optimal recording optical power of an optical disc, comprising: a first step of confirming whether an audio signal is input to an input terminal from an external source when operating power is applied to the apparatus; A second step of detecting an optimal recording optical power value at 1x speed by performing an optimum recording optical power detection (OPC) operation at 1x speed when the audio signal is input; And a third step of storing the detected optimal recording optical power value in a memory.

A first step of detecting an optimum recording optical power value for the basic recording speed by performing an OPC operation for the basic recording speed when the operating power is applied to the optical disk device; A second step of storing the detected optimal recording optical power value in a memory and confirming whether an audio signal is input to an external input terminal; A third step of detecting an optimal recording optical power value for the 1x speed by performing an OPC operation for the 1x speed when the audio is input; And a fourth step of storing the detected optimal recording optical power value in a memory.

EMBODIMENT OF THE INVENTION Hereinafter, preferred embodiment of the optimal recording optical power detection method of the optical disc which concerns on this invention is described in detail based on attached drawing.

2 is a block diagram of an optical disk driver for implementing an optimal recording optical power detection method for an optical disk according to the present invention, and includes: an A / D converter 20 for digitally converting an analog signal input from the outside; A digital recording signal processor (30a) which adds an encoding and error correction code (ECC) for the input digital data to convert it into a recording format; A channel bit encoder (40) for reconverting the data converted into the recording format into a bitstream; An optical driver 41 for outputting a light quantity driving signal according to the input signal; An optical pickup (12) for recording a signal on an optical disc (10) in accordance with the light quantity driving signal and for detecting a recording signal from a recording surface; An R / F unit 50 for filtering the signal detected by the optical pickup 12 and outputting it as a binary signal; A drive unit 61 for driving a spindle motor 11 for rotating the optical pickup 12 and the optical disc 10; A servo unit 60 for controlling the driving of the drive unit 61 from the tracking error signal T.E and the focusing error signal F.E of the optical pickup 12 and the rotational speed of the optical disc 10; A digital reproduction signal processor (30b) which decodes the binary signal and restores the original data to its own clock synchronized with the binary signal; A memory 71 in which an optimal recording optical power value for 1x speed is stored; And a microcomputer 70 for controlling and performing an OPC operation and a data recording operation for the optical disc 10.

FIG. 3 shows a flow of a preferred embodiment of the method for detecting optimal recording optical power of an optical disc according to the present invention. Hereinafter, the method of detecting optimal recording optical power of FIG. 3 according to the present invention will be described with reference to FIG. It explains in detail.

First, when operating power is applied to the device (S10), the microcomputer 70 checks whether an analog signal, for example, an audio signal, is input to an input jack (Input Jack) from the outside (S20), and if analog audio When the signal is input, the microcomputer 70 performs an OPC operation at 1x speed (S21).

First, the microcomputer 70 rotates the optical disc 10 by driving the spindle motor 11 through the servo unit 60 and the drive unit 61, and the optical disc 10 is rotated in FIG. A recording method in which the target recording optical power value _Pind , which is recorded as data of three bits W1, W2, W3, is confirmed as described above, and the form of the recording signal is recorded on the optical disc 10. (write strategy), that is, it is determined based on a recording pulse. The recording method is recorded at a fixed value at the time of manufacturing the recording medium, and in the case of an optical disc (CD-R) capable of recording once, the type of recording medium The value is fixed for each recording medium. In the case of a rewritable optical disc (CD-RW), the value is fixed for each recording speed of the recording medium.

The microcomputer 70 variably applies the control signal for changing the identified target recording optical power value (for example, 8 mW) by a predetermined size ΔP to the optical driver 41, and thus the photosphere. The synchronizing 41 outputs a recording signal for test data at an optical driving power corresponding to the applied control signal, so that the optical pickup 12 has a 15ATIP (= 15sector) in the test area A shown in FIG. = 15 blocks), wherein the optical pickup 12 records test data while maintaining the signal level or duration of the recording pulse based on the confirmed recording method. .

As described above, when the test data of 15 ATIP is completed in the test area A of the optical disc 10 due to the fixed driving pulse and the optical drive power that is changed to a predetermined size, the microcomputer 70 selects the optical pickup 12. The test data recorded under control is sequentially read out, and the asymmetry value β of the reproduced signal is calculated from the reproduced signal read out as described above and filtered by the R / F unit 50. The micom 70 then fits a function of the curve according to each optical power value obtained with the calculated β value, and then the micom 70 sets a target β range value recorded on the optical disc 10. The optimal recording optical power value is detected from the curve obtained as described above and the read target β range value, wherein the target β range value is set in ATIP, which is a time information field recorded on the optical disc 10. The second 'byte (when M1: S1: F1 = 001) is recorded as three bits (P1, P2, P3) data, and the microcomputer 70 reads the read three bits (P1, P2, P3) data. In the case of '000', the range of β is -4 to + 8%, and in the case of '001', the range of β is 0 to + 12%.

When the optimal recording optical power value at 1x speed is detected by performing the OPC operation as described above, the microcomputer 70 controls the optical pickup 12 to perform one OPC operation in the count area B shown in FIG. In other words, null data is recorded over 1ATIP of the count area B, so that the microcomputer 70 can read from the null data recording section of the count area B. You can see how many OPC operations have been performed.

The microcomputer 70 stores the optimal recording optical power value for the detected 1x speed in the memory 71 (S22), and at a later 1x speed recording request (S30), that is, from the outside through the input terminal. When the recording request of the input analog audio signal is performed, the 1x speed recording operation is immediately performed without recording delay using the optimal recording optical power value previously detected and stored in the memory 71 (S31). same.

First, the microcomputer 70 sets the recording speed of the apparatus to 1 times, and rotates the optical disc 10 through the servo unit 60 and the drive unit 61. The A / D converter 20 converts an analog audio signal input from the outside through the input terminal into digital data and outputs the digital audio signal. The digital recording signal processor 30a is reliable in recording / reproducing the input digital data. An error correction code (ECC Block) is generated by adding encoding and error correction parity, and the channel bit encoder 40 outputs the digital bit stream output from the digital recording signal processor 30a. A pulse width modulated signal for recording on the optical disc 10 is converted and applied to the optical driver 41. The microcomputer 70 checks the optimal recording optical power value for the set 1x speed from the memory 71 and outputs a recording signal by an optical driving current corresponding to the identified recording optical power value. The synchronizing 41 is controlled, and the optical driver 41 applies the signal according to the optical driving power to the optical pickup 12 so that the pulse width modulated signal is recorded in the program area of the optical disc 10. This recording operation is continued until the data is completed.

FIG. 6 shows a flow of another embodiment of an optimal recording optical power detection method for an optical disc according to the present invention. Hereinafter, the optimal recording optical power detection method of FIG. 6 according to the present invention will be described with reference to FIG. It explains in detail.

First, when operating power is applied to the device (S40), the microcomputer 70 sets the recording speed of the device to the default speed (for example, 4 times speed), and then performs an OPC operation for the default speed (S41). The optimum recording optical power value for the basic double speed is detected, and the OPC operation is performed as described above.

The microcomputer 70 stores the optimal recording optical power value for the detected basic speed in the memory 71 (S42).

In this state, when the operating power is applied to the device and the optimal recording optical power value for the basic speed is detected and stored, if there is no operation command such as a recording request within a predetermined time, the microcomputer 70 inputs an external input jack. Check whether the analog audio signal is input (S50), and if the analog audio signal is input from the outside, the microcomputer 70 sets the recording speed of the device to 1x speed, and then performs OPC operation for 1x speed. As described above, the optimal recording optical power value at 1x speed is detected.

The microcomputer 70 stores the optimal recording optical power value for the detected 1x speed in the memory 71 (S52), and at a later 1x speed recording request (S60), that is, from the outside through the input terminal. When the recording request of the input analog audio signal is performed, the 1x speed recording operation is immediately performed using the optimal recording optical power value previously detected and stored in the memory 71 (S61).

The above-described embodiment is a case where the optical disc 10 is a write once disc (CD-R), and if the optical disc 10 is a rewritable disc (CD-RW), depending on the performance of OPC, The test data recorded as described above are sequentially read out, and the modulation degree at each recording optical power from the reproduction signal filtered by the R / F unit 50 (m = I _11T / I _Top, where I _11T is 11T). The amplitude of the reproduced signal with respect to the signal, I _Top is the peak value of the 11T signal), estimate the multi-order equation for the modulation curve by curve fitting, and then calculate the γ curve from the estimated modulation degree (m) curve. Will be obtained. Subsequently, the microcomputer 70 obtains an optimal optical power value from the target γ value γ _target and the γ (gamma) curve recorded on the optical disc 10.

In the above embodiment, if the door of the optical disc device is opened, the microcomputer 70 deletes the contents of the memory 71, which is an optimal recording optical power value for the 1x speed stored in the memory 71. This is because the value is meaningless for other optical disks.

Further, in the above embodiment, even when the optimal recording optical power value for the 1x speed is stored in the memory 71, the microcomputer 70 is optimized for the 1x speed at predetermined time intervals without an operation command such as a recording request. The recording optical power value is detected to update the stored contents of the memory 71. In this case, the recording characteristics of the optical disc 10 are continuously changed and detected by the power supply to the apparatus. This is because the optimum recording optical power value also depends on the characteristics of the recording medium.

The above-described preferred embodiments of the present invention are disclosed for purposes of illustration, and those skilled in the art can improve, change, and modify various other embodiments within the spirit and scope of the present invention disclosed in the appended claims. Replacement or addition may be possible.

According to the present invention, a method for detecting an optimal recording optical power of an optical disc according to the present invention is performed by performing an OPC for 1x speed when an input of an analog audio signal is detected at power-on or power-on state of an optical disk device. By detecting and storing the recording optical power value in advance, it is a very useful and convenient invention that a recording operation can be performed quickly without a recording delay in the case of a subsequent 1x recording request.

Claims (5)

In the operation method of the optical disk device, A first step of confirming whether an audio signal is input to an input terminal from the outside when the operating power is applied to the apparatus; A second step of detecting an optimal recording optical power value at 1x speed by performing an optimum recording optical power detection (OPC) operation at 1x speed when the audio signal is input; And And a third step of storing the detected optimal recording optical power value in a memory. The method of claim 1, And a fourth step of performing a 1x speed recording operation on the audio signal by using the stored optimal recording optical power value when the recording request is made for the audio signal. Way. The method of claim 1, Checking the presence or absence of an audio signal at the input terminal at predetermined time intervals, detecting an optimal recording optical power value at 1x speed according to the result, and updating the storage contents of the memory based on the detected optimal recording optical power value An optimal recording optical power detection method for an optical disc, characterized in that the. In the operation method of the optical disk device, A first step of detecting an optimum recording optical power value for the basic recording speed by performing an OPC operation for the basic recording speed when the operating power is applied to the apparatus; A second step of storing the detected optimal recording optical power value in a memory and confirming whether an audio signal is input to an external input terminal; A third step of detecting an optimal recording optical power value for the 1x speed by performing an OPC operation for the 1x speed when the audio is input; And And a fourth step of storing the detected optimal recording optical power value in a memory. The method of claim 4, wherein And a fourth step of performing a 1x recording operation on the audio signal using the stored optimal recording optical power value for the 1x speed when the recording request is made for the audio signal. Recording optical power detection method.