KR100271570B1 - Method of discriminating optical disk and device thereof - Google Patents

Abstract

PURPOSE: A method and a device for discriminating an optical disk, are provided to performs an operation of focusing and moving to a track direction of the optical disk and returning to an original position, so as to discriminate a kind of the optical disk of CD(Compact Disc) and DVD(Digital Video Disc) series. CONSTITUTION: An FES(Focus Error Signal) is detected, and the size of the FES is compared with the first reference value. If the FES is larger than the first reference value, the size of a TES(Tracking Error Signal) is compared with the second reference value. If the TES is larger than the second reference value, an optical disk is discriminated to be a playback for only DVD(Digital Video Disc) series. The size of the TES is compared with the third reference value. If the TES is smaller than the third reference value, the optical disk is discriminated to be a playback for only DVD series.

Description

Optical disc discrimination method and apparatus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical disc reproducing method and apparatus thereof, and more particularly, to an optical disc type discrimination method and apparatus.

In general, it is very important to determine the type of optical disc in the drive of the optical disc, and at the same time it is one of the first things to be done. In addition, this task is performed initially after the system is powered up, and the overall operating mode is determined by the result. Referring to the process when the power is applied to the system, Initialization and checking are performed when the power is initially applied. In the initialization process, initial value setting and resetting of various integrated circuits (hereinafter referred to as ICs) are performed. During the checking operation, various switches and mechanical parts are checked, and an optical disc type is discriminated. On the other hand, when looking at the type of optical disc, a read-only compact optical disc (hereinafter referred to as CD), which is a kind of optical recording medium, is rapidly spreading. In addition, the demand for a recordable compact optical disc (Recordable Compack Disc (hereinafter referred to as CD-R)) and a rewritable optical disc (CD-RW) is gradually increasing. In particular, a CD-based optical disc drive unit must support the use of a regular CD optical disc, a CD-R, and a CD-RW optical disc in parallel, and a DVD-RAM drive unit in a DVD (Digital Video Disc; (Digital Video Disc Random Access Memory; referred to as DVD-RAM) and DVD-ROM (Digital Video Disc Read Only Memory; referred to as DVD-ROM) optical discs and general CD series optical discs should be supported in parallel. On the other hand, a technique for determining the type of CD-based optical disc is provided in Patent Application No. 97-28609, but since the technology for determining the type of optical disc of DVD series has not been developed, it is possible to accurately determine the type of optical disc of CD series and DVD series at the same time. I can't do it.

An optical disc type discrimination method according to the prior art will be described with reference to FIG. 1.

1 is a flowchart showing a type discriminating method of an optical disk according to the related art.

After turning on the laser diode (LD), the lens is raised. (Step S1) In the LD driving unit, the LD is turned on to transmit the light beam to the surface of the optical recording medium. At the same time, the actuator is lowered to the initial position, so the lens is lowered and then the actuator is raised to raise the lens. In step S2, the read power is set. The initial lead power is set to have the reflectance and lead power of the CD-RW having the highest reflectance. For example, the reflectivity of a CD-RW is 15-25%, and the lead power is about 1.0mW. The waveform of the lead power is a stepped waveform at intervals of ΔmW. In step S3, it is determined whether a FOK (Focus O.K; FOK) signal is generated.

The FOK signal indicates that more than a certain amount of light is reflected by the optical disk. If no FOK signal is generated in step S3, after repeating steps S2 to S3 for a predetermined time, if no FOK signal is generated, it is determined that there is no optical recording medium and data reproduction ends. Step) The initially set lead power is larger than the recording power of CD-R and general CD. For example, the lead power of a CD-R is 0.7 mW, and the lead power of a normal CD is 0.5 mW. Therefore, the initial lead power has a sufficient amount of light to determine the presence or absence of the optical recording medium. In this state, no FOK signal is generated, which means that the optical recording medium is not mounted, so that data reproduction ends. When the FOK signal is generated in step S3, a high frequency (hereinafter referred to as RF) level meter is read. (Step S4) When the FOK signal is generated, the control unit reads the RF level at that time from the RF level meter unit. In step S5, it is determined whether the reference RF level matches the RF level read in step S4. The controller compares the reference RF level with the read RF level and determines whether the two data match each other. If the reference RF level and the read RF level do not match at step S5, the steps S2 to S5 are repeated. (S6 step) The control unit decreases the read power by ΔmW when the two data do not match. The RF level may be adjusted by monitoring the RF level while repeatedly performing the steps S2 to S5 until the reference RF level matches the read RF level. If the reference RF level and the read RF level coincide at step S5, the read power at that time is checked to determine the type of optical disc and to adjust the RF level. (Step S7 to Step S9) The control unit can determine the type of optical disc by the read power value at that time when the reference RF level and the read RF level match. When the lead power value is 0.5 mW, the optical recording medium at that time is discriminated as a general compact optical disc (CD). When the lead power value is 0.7 mW, the compact optical disc (CD-R) capable of recording the optical recording medium at that time If the read power value is 1.0 mW, the optical recording medium at that time is determined as a rewritable compact optical disc (CD-RW).

However, the optical disc type discrimination method according to the prior art performs the focusing operation in the initial checking process when the power is applied, so that the optical disc type of the CD series can be determined, but the optical disc of the DVD series cannot be determined. There are many difficulties in determining the type of DVD-based optical disc

Accordingly, an object of the present invention is to determine the type of optical disc capable of determining the type of optical disc of CD series and DVD series by performing the operation of returning to the original position after moving in the track direction of the focusing and optical disc in the initial checking process when power is applied. To provide a method and apparatus therefor

1 is a flow chart showing an optical disc discrimination method according to the prior art.

2 shows a DPD method and a PP method for detecting a tracking error.

3 is a flowchart showing a method of discrimining an optical disc type according to the present invention;

4 is a diagram showing the configuration of a device for discriminating the type of an optical disk according to the present invention;

* Explanation of symbols for main parts of the drawings

2: optical disk 4: focus adjustment unit

6: focus error signal detection unit 8: control unit

10: sled adjusting unit 12: tracking air signal detection unit

Error signal detection

In order to achieve the above object, the optical disc type determination method of the present invention; Detecting a focus error signal and comparing a magnitude and a first reference value; A second step of comparing the magnitude of the tracking error signal with the second reference value when the magnitude of the focus error signal is greater than the first reference value in the first step; A third step of estimating the optical disc at this time as a DVD-ROM series for reproduction only when the tracking error signal is larger than the second reference value; and a fourth comparing the third reference value with the magnitude of the tracking error signal. Steps; And if the tracking error signal is smaller than the third reference value in the fourth step, identifying the optical disc at this time as the playback-only DVD sequence.

An optical disc type determining apparatus according to the present invention comprises: a focus error signal detecting unit for detecting a focus error signal; A tracking error signal detector for detecting a tracking error signal; And comparing the focus error signal from the focus error signal detection unit with the first reference value and estimating the optical disc as a compact disc type when the focus error signal is smaller than the first reference value, and tracking error signal when the focus error signal is larger than the first reference value. The control unit compares the tracking error signal from the detection unit with the second and third reference values, and estimates the optical disc as a reproduction-only DVD series when the tracking error signal is larger than the second reference value and when the tracking error signal is larger than the third reference value. It is characterized by including.

Other objects and features of the present invention other than the above object will become apparent from the description of the embodiments with reference to the accompanying drawings.

With reference to Figures 2 to 4 will be described a preferred embodiment of the present invention.

FIG. 2 is a diagram illustrating a differential phase difference (DPD) method and a push-pull (PP) method for detecting a tracking error, and a method of detecting a DVD-based optical disc and a corresponding tracking signal. This will be described. The PP method is one of the tracking error signal detection methods for DVD-RAM. The DVD-RAM is in the form of Land / Groove, and the depth of each other is λ / 6 so that the light beam does not follow the center of the track. In this case, the intensity of light distribution is biased to one side. At this time, if the left and right values are subtracted, it is displayed as-or +, and the tracking error is detected using this. In addition, the threshold value of the signal detected at this time becomes a third reference value and is shown in FIG. 2B. On the other hand, the DPD method is a tracking error signal detection method for a DVD-ROM. The DVD-ROM has a pit (Pit) containing data, and the depth of the light is λ / 4. By dividing the intensity of the quadrangles into (a + c)-(b + d) phases, it is possible to detect the deviation from the track and the extent thereof. In addition, the threshold value of the signal detected at this time becomes a second reference value and is shown in FIG. 2B. On the other hand, the relationship between the depth formed in the disk and the signal detection method is shown in Fig. 2A.

3 is a flowchart showing a method for determining an optical disc type according to the present invention.

In step S1, a focus error signal (hereafter referred to as FES) is detected. The operation is performed in a checking operation at an early stage after power is applied to the system, and detects a focus error signal. The size of the FES is compared with the first reference value (step S2). If the size of the FES is equal to or greater than 1.35 V as the first reference value, the FES is a DVD-based optical disc. If the FES is greater than the first reference value in step S2, the magnitude of the tracking error signal (hereinafter referred to as TES) is compared with the second reference value. (Step S3) The optical disc is classified as a DVD series optical disc, and among the DVD series, first, the second reference value (T1 + T2) / 2 and TES are compared by the DPD method to distinguish between DVD-RAM and DVD-ROM. The DVD-RAM detects TES by the PP method, and the DVD-ROM detects TES by the DPD method. If the TES is greater than the second reference value in step S3, the DVD-ROM is estimated. (Step S4) Since the DVD-ROM can detect the tracking error signal by the DPD method, the TES has a larger value than the second reference value. In step S5, the value of the TES and the value of the third reference value are compared. In order to reconfirm the result at step S4, TES is detected by the PP method. Tep, which is the third reference value, is a signal detected by the PP method. If TES is less than the third reference value in step S5, it is determined by the DVD-ROM. (Step S6) Since the tracking error signal is not detected by the PP method in the DVD-ROM, TES is weakly detected and becomes smaller than the third reference value. If the TES is smaller than the second reference value in step S3, it is estimated as a DVD-RAM. (Step S7) Since the DVD-RAM does not detect a tracking error signal by the DPD method, the TES is weakly detected and becomes smaller than the second reference value. If the TES is greater than the third reference value in step S5, it is determined as a DVD-RAM. (Step S8) Since the DVD-RAM can detect the tracking error signal by the PP method, the TES has a value larger than the third reference value. If FES is equal to or less than the first reference value in step S2, it is determined as a CD series optical disk. On the other hand, if the focus error signal is less than or equal to the first reference value, it is assumed to be a CD-based optical disc, and the type discrimination of the CD-based optical disc is provided in the prior art, and thus the description of the detailed process will not be described.

4 is a view illustrating an optical disc type determination apparatus according to the present invention, and the optical pickup for adjusting the focusing position and the tracking position of the optical disc type discrimination apparatus and the optical pickup apparatus (not shown) according to the present invention in the configuration of FIG. An adjusting unit 4, a focus error signal detecting unit 6 connected to the optical pickup apparatus for detecting a focus error signal, and a tracking error signal detecting unit 6 connected to the optical pickup apparatus for detecting a tracking error signal And a control unit 8 connected to the focus error signal detection unit 6 and the tracking error signal detection unit 12 to determine the type of optical disc. In the optical detector of the optical pickup device, a servo control signal detected by the reflected light beam of the optical disc 2 is present, and the servo control signal includes a focus error signal for adjusting the focusing of an objective lens (not shown), and tracking. A tracking error signal is included to adjust. The focus error signal detection unit 6 detects a focus error signal FES from the photodetector, and the tracking error signal detection unit 12 detects a tracking error signal TES from the photodetector. On the other hand, the control section 8 first classifies the type of the optical disc 2 into the CD series and the DVD series according to the FES transmitted from the focus error signal detection section 8. Then, the type of the optical disc 2 is classified into a DVD-RAM and a DVD-ROM according to the TES transmitted from the tracking error signal detection unit 10 to determine it.

As described above, the method and apparatus for determining the type of optical disk of the present invention perform the operation of returning to the original position after moving to the focusing direction and the track direction of the optical disk in the initial checking process when the power is applied to the optical disk of CD series and DVD series. There is an advantage in determining the type.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (9)

Detecting a focus error signal and comparing the magnitude and the first reference value; A second step of comparing the magnitude of the tracking error signal with a second reference value when the magnitude of the focus error signal is greater than the first reference value in the first step; and when the tracking error signal is greater than the second reference value in the second step. A third step of estimating the optical disc as a playback-only DVD series; a fourth step of comparing the magnitude of the tracking error signal with a third reference value; and when the tracking error signal is smaller than the third reference value in the fourth step, And a fifth step of discriminating the optical disc at this time into a DVD series for exclusive use of reproduction. The method of claim 1, further comprising: estimating the optical disc as a recordable DVD sequence when the tracking error signal is smaller than the second reference value in the second step; and wherein the tracking error signal is the third reference value in the fourth step. If larger, further comprising a seventh step of discriminating the optical disc at this time into a DVD series. The method of claim 1, And an eighth step of discriminating the optical disc as a compact disc series when the focus error signal is less than or equal to the first reference value in the first step. The method of claim 1, wherein the second step comprises: classifying the optical disc into a DVD-based optical disc; and classifying the DVD-based optical disc into a DVD-based and a DVD-only DVD. An optical disc discrimination method characterized by the above-mentioned. The method of claim 1, wherein the third step detects a tracking error signal by using a differential phase difference (DPD) method. The method of claim 2, wherein the seventh step detects a tracking error signal by a push-pull (PP) method. The optical disc discrimination method according to claim 1, wherein the first reference value is 1.35V. The method of claim 2, wherein the second reference value is (T1 + T2) / 2. A focus error signal detector for detecting a focus error signal; A tracking error signal detection unit for detecting a tracking error signal; The focus error signal from the focus error signal detection unit is compared with a first reference value, and when the focus error signal is smaller than the first reference value, the optical disk is assumed to be a compact disk series, and the tracking error is greater than the first reference value. Comparing the tracking error signal from the signal detection unit with the second and third reference values, if the tracking error signal is greater than the second reference value, the optical disc is the playback-only DVD series, and if the tracking error signal is greater than the third reference value, the optical disc is the playback-only DVD series and the third And a control unit for estimating the optical disc as a recordable DVD series when it is larger than the reference value.

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