Prepit detecting apparatus

Details Prepit detecting apparatus Prepit detecting apparatus

1999-09-28

2003-02-11

Hindi, Nabil (Department: 2653)

Dynamic information storage or retrieval

With servo positioning of transducer assembly over track...

Optical servo system

C369S124070, C369S124150, C369S044340

Reexamination Certificate

active

06519214

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a prepit detecting apparatus arranged to detect prepit information in an optical recording/reproducing apparatus for recording/reproducing information with respect to a recording-enabled optical recording medium having pre-information, such as address information, in the form of prepits.
2. Description of the Related Art
In general, a recording-enabled optical recording medium is enabled to record information on an optical recording medium on which no information has been recorded by recording address information and reference signals for generating a clock signal for use in a recording/reproducing operation in the form of prepits and pregrooves. A DVD-R (Digital Versatile Disc-Recordable) has energetically been researched and developed, the DVD-R being a recording medium which is capable of recording information in a quantity which is about seven times information which can be recorded on the CD. The DVD-R has pregrooves which are regions on which information, such as video data and audio data, which must be recorded is recorded as recording pits. Moreover, the DVD-R has prepits (hereinafter called land prepits (LPP)) in land portions which are regions formed among the foregoing pregrooves. The LPP is formed on a straight line which perpendicularly intersect the direction of a tangent of the pregrooves such that the land prepits are not formed adjacent to each other across a pregrooves. The pregrooves are slightly swung (wobbled) in the radial direction of the disc at a frequency based on a reference clock which is used to control the rotation of the DVD-R. When the rotation of the DVD-R is controlled, the wobbling frequency is detected. Thus, feedback control is performed in such a manner that the detected wobbling frequency coincides with the frequency of the reference clock.
The LPP is detected such that reflected light of a light beam with which the pregrooves has been irradiated is received by a light receiving device divided into two sections at least along a division line optically parallel with the direction of a tangent of the pregrooves. Moreover, the difference of output signals from the regions (the divided regions) of the light receiving device in a direction perpendicular to the pregrooves is calculated. The obtained differential signal is compared with a predetermined threshold so that the LPP is detected as a binary signal (hereinafter called an “LPP signal”). When the recording medium is an optical disc, the divided regions of the light receiving device are formed in the radial direction of the disc owing to the foregoing division line. Therefore, the foregoing differential signal is called a “radial push-pull signal”.
The reason why the LPP can be detected by using the radial push-pull signal is that the LPP is formed as described above such that the level does not exist in adjacent land portions on a straight line which perpendicularly intersects the direction of tangent of the pregroove. That is, when one pregroove is irradiated with a light beam, reflection components of the LPP do not simultaneously exist in light reflected from the two side land portions (the LPP component exists in only reflected light from either of the land portions). Thus, the foregoing calculation for obtaining the difference enables only the component of light reflected from the LPP to be extracted. Usually, only either (for example, the positive pole component) of the two polar components obtained by the calculation for obtaining the difference is compared with the predetermined threshold. An obtained binary signal is employed as the LPP signal.
A record-enabled optical recording medium, such as the DVD-R, encounters reduction in the reflectance owing to thermal energy of a recording beam when a high output light beam is applied to form the recording pit for storing information. That is, the quantity of light reflected from the position of a pregroove in which the recording pit has been formed (which has been irradiated with the recording beam) is smaller than the quantity of light reflected from the position of a pregroove having no recording pit. If the recording beam is also used as the reproducing beam (when the recording beam is used as the reproducing beam, a low output is employed) or if a tracking error signal can be generated by one beam, the structure of a recording/reproducing apparatus can conveniently be simplified. Therefore, the diameter of the recording beam is usually adjusted to be slightly larger than the width of the pregroove. Thus, when information is recorded, also a portion of the land adjacent to the position of the pregroove on which the recording pit for storing information is formed is irradiated with the recording beam. Therefore, if an LPP exists in the land portion adjacent to the position of the pregroove on which the recording pit is formed, the following problem arises when the LPP is read after the recording pit has been formed.
That is, irradiation with the high-output recording beam for the purpose of forming the recording pit causes the reflectance of the land portion having the LPP to be reduced. Therefore, when the LPP is read, the quantity of light reflected from the LPP is reduced. Also the amplitude level of the differential signal of the LPP which is extracted as the radial push-pull signal is lowered. As a result, there arises a problem in that the S/N ratio (signal-to-noise ratio) of the LPP signal with respect to unnecessary noise deteriorates.
On the other hand, the pregrooves are wobbled in the radial direction of the disc as described above. Therefore, the radial push-pull signal is formed into a composite signal in which the prepit is superimposed on the component of the wobbling frequency. A disc, such as the DVD-R, on which information has densely been recorded, sometimes encounters a fact that the component of the wobble signal of a pregroove adjacent to a pregroove which is irradiated with a light beam is leaked and introduced owing to crosstalk. If the foregoing leakage and introduction occur, the component of the wobble signal in the foregoing composite signal is undesirably caused to interfere. Thus, the amplitude is undesirably changed.
That is, the component of the LPP signal is superimposed on the wobble signal having the amplitude which is changed. Since the amplitude of the wobble signal serving as the base-line voltage is undesirably changed, comparison with a fixed slice level for detecting the LPP signal in the form of a binary signal cannot easily be performed.
To overcome the interference of the wobble signal component, for example, a method exists with which the amplitude of the wobble is AM-detected to obtain the amplitude change component. Moreover, the obtained change component is reduced to a slice level for binary-coding the LPP, followed by performing binary coding while following to change in the wobble is being performed.
However, when the foregoing method is employed, an AM wave detecting circuit, a variety of filters and suppression of the LPP component when the wobble amplitude is detected are required. Therefore, the size of the circuit is enlarged excessively. Moreover, setting and adjustment of a quantity of injection of the change in the wobble must be performed. Therefore, there arises a problem in that the operation for adjusting the circuit becomes complicated.
SUMMARY OF THE INVENTION
In view of the foregoing, an object of the present invention is to provide a prepit detecting apparatus having a simple structure and capable of accurately extracting an LPP signal.
To solve the problem, according to one aspect of the present invention, there is provided a prepit detecting apparatus which uses an optical recording medium having information recording tracks on which information is recorded and guide tracks each of which guides a light beam to the information recording track and on which prepits for saving pre-information are formed such that the light beam is applied to the information track of the optical reco

Affiliated with

Also associated with

Rating

Prepit detecting apparatus does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Prepit detecting apparatus, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Prepit detecting apparatus will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFUS-PAI-O-3176669