KR100475085B1 - Apparatus and method for deciding area of optical disc - Google Patents

Abstract

The present invention relates to an apparatus and method for reproducing an optical recording medium. More particularly, the pickup is a lead-in area when the position information of the pickup is read for access in an optical disc having a reproduction time of 90 minutes or more. An apparatus and method for determining an area of an optical disc for determining whether the device is located in the program area or the program area. An apparatus for judging an area of an optical disc includes pickup moving means for moving a pickup on an optical recording medium; When the pickup receives the target position to which the pickup is to be moved, and the time information at the current position of the pickup moving means is 90 minutes or more, the current position of the pickup is compared with the absolute reference position of the pickup, and the pickup is an optical recording medium. Area determining means for determining which of the lead-in area, program area and lead-out area of the device is located; Calculating means for calculating a moving distance of the pickup by subtracting the current position from the target position; And movement control means for controlling movement of the pickup movement means according to the calculated movement distance of the pickup. According to the present invention, it is possible to determine whether the pickup is located in the lead-in area or the program area when the position information of the pickup is read for access from an optical disc having a playback time of 90 minutes or more. This creates the effect of making it accessible to all sections.

Description

Apparatus and method for deciding area of optical disc

The present invention relates to an apparatus and method for reproducing an optical recording medium. More particularly, the pickup is a lead-in area when the position information of the pickup is read for access in an optical disc having a reproduction time of 90 minutes or more. An apparatus and method for determining an area of an optical disc for determining whether the device is located in the program area or the program area.

In general, an optical disc is composed of three signal regions: a lead-in region, a program region, and a lead-out region. In the lead-in area, information recorded on the optical disc, i.e., positional information on the disc, type of disc, reproduction time, and the like are recorded, which is called TOC (Table Of Content). The TOC signal is repeatedly recorded in the lead-in area. The program area is an area in which reproduction signals are recorded. The lead-out area is a signal area indicating the end of the program.

1 is a diagram showing a signal region of a 90-minute optical disc.

For optical disc access, the time is converted to a LBA (Logical Block Address) to calculate the travel distance of the pickup. The lead-in area switches to -LBA, and other areas, program area and lead-out area, Switch to + LBA. As shown in FIG. 1, except for the 99 minute disc, the 90-99 minute region exists only in the lead-in. Thus, if the current position of the pickup is read and the area is 95 minutes or longer, it is determined as lead-in and access is performed.

However, in the case of an optical disc of 90 minutes or more, as shown in FIG. 2, 90 to 99 minute areas exist in two areas, a lead-in area and a program area. Therefore, it is possible to switch to -LBA in the lead-in area and to + LBA in the program area only if there is a criterion to determine whether the current position of the pickup exists in the lead-in area or the program area. Accurately calculated and accessible. If this criterion is absent, optical disc access will be impossible.

The technical problem to be solved by the present invention is to determine whether the pickup is located in the lead-in area or the program area when the position information of the pickup is read for access from an optical disc having a playback time of 90 minutes or more. An apparatus and method for determining the area of an optical disk to be determined are provided.

An apparatus for determining an area of an optical disk for solving the technical problem to be achieved by the present invention comprises: pickup moving means for moving a pickup on an optical recording medium; When the pickup receives the target position to which the pickup is to be moved, and the time information at the current position of the pickup moving means is 90 minutes or more, the current position of the pickup is compared with the absolute reference position of the pickup, and the pickup is an optical recording medium. Area determining means for determining which of the lead-in area, program area and lead-out area of the device is located; Calculating means for calculating a moving distance of the pickup by subtracting the current position from the target position; And movement control means for controlling movement of the pickup movement means according to the calculated movement distance of the pickup.

In the present invention, the pickup moving means is characterized in that the step motor.

In the present invention, when the current position of the pickup is larger than the absolute position of the pickup, the area determining means determines that the pickup is currently in the program area or the lead-out area, and the current position of the pickup is the pickup. If it is less than the absolute reference position of characterized in that the pickup is determined to be in the lead-in area.

In the present invention, the absolute reference position of the pickup in the area determining means is updated each time the pickup moves to the inner or outer circumference of the optical recording medium.

In the present invention, the absolute position of the pickup is added by one every time the pickup moves one step to the outer circumference of the optical recording medium, and the absolute position of the pickup is taken every time the pickup moves one step to the inner circumference of the optical recording medium. The position is subtracted by one, and the pickup has a fixed absolute position when located in the center of the optical recording medium.

In another aspect of the present invention, there is provided a method of determining an area of an optical disk, the method including: (a) receiving a target position to which pickup is to be moved from a host; (b) When the time information at the current position of the pickup is 90 minutes or more, the current position of the pickup is compared with the absolute reference position of the pickup so that the pickup is a lead-in area, a program area and a lead of the optical recording medium. Determining which of the out areas is located; And (c) calculating the moving distance of the pickup by subtracting the current position from the target position and moving the pickup.

In the present invention, in the step (b), if the current position of the pickup is larger than the absolute position of the pickup, it is determined that the pickup is currently in the program area or the lead-out area, and the current position of the pickup is If it is smaller than the absolute reference position of the pickup, it is determined that the pickup is currently in the lead-in area.

In the present invention, in the step (b), the absolute position of the pickup is updated each time the pickup moves to the inner or outer circumference of the optical recording medium.

In the present invention, the absolute position of the pickup is added by one every time the pickup moves one step to the outer circumference of the optical recording medium, and the absolute position of the pickup is taken every time the pickup moves one step to the inner circumference of the optical recording medium. The position is subtracted by one, and the pickup has a fixed absolute position when located in the center of the optical recording medium.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

2 is a view showing a signal area of an optical disk for 90 minutes or more for explaining the optical disk area determination apparatus and method.

3 is a block diagram showing the configuration of the area determining apparatus for the optical disk according to the present invention, wherein the optical disk 300, the pickup 301, the step register 302, the area determining unit 303, and the distance calculating unit 304 are shown. ), The control unit 305, and the step motor 306.

4 is a flowchart illustrating an operation of a method of determining an area of an optical disk according to the present invention, in which a time 400 (Min: Sec: Frame) of a target position to which a pickup is to be moved from a host is received (400), and the current position of the pickup is shown. Calculating (401), determining whether the time information at the current position of the pickup is 90 minutes or more, checking the absolute reference position of the pickup (403), and the current position of the pickup is the absolute reference of the pickup Determining whether the pickup is greater than the location (404), determining that the pickup is in the current program area (405), determining that the pickup is in the current lead-in area (406), and replacing the current location time information of the pickup to the LBA. In step 407, a step 408 of calculating the moving distance of the pickup with the LBA of the target position-the LBA of the current position, a step 409 of moving the pickup by the calculated distance.

Next, the present invention will be described in detail with reference to FIGS. 2 to 4.

Referring to FIGS. 2 and 3, in the case of an unrecorded 99-minute optical disc 300, the optical disc 300 reads a current position to determine whether the optical disc 300 is a lead-in area or a program area. It is assumed that the step motor 306 is used when the pickup 301 is moved.

In addition, whenever the pickup 301 moves to the inner or outer circumference of the optical disk 300, the absolute position of the step motor 306 is updated, and the value is stored in the step register 302.

For example, when the pickup 301 moves to the outer circumference of the optical disk 300, the absolute position is added by 1 for each step movement, and the subtraction is subtracted by 1 for each movement to the inner circumference. Each has an absolute position value. When the pickup 301 comes to the center of the optical disk 300, it always has a fixed fixed absolute value, and as shown in FIG. However, in selecting a classic absolute reference position, the reference value may be changed and set only in a section capable of determining the lead-in area and other areas as well as the intermediate value of the innermost and outermost circumferences.

In the case of the 99-minute optical disc 300, time information (Min: Sec: Frame) at the current position of the pickup 301 is read for access. When the current position of the pickup 301 is 90 minutes or more, the area determination unit 303 determines whether the pickup 301 exists in the current lead-in area or in the program area.

The area determining unit 303 refers to the absolute reference position value of the pickup 301, and if the position of the step motor 306 at the current position is smaller than the absolute reference position of the optical disc 300, the current pickup 301 It is judged that it exists in the inner lead-in area. In the same manner, the area determining unit 303 refers to the absolute reference position value of the pickup 301 and, if the position of the step motor 306 at the current position is greater than the absolute reference position of the optical disc 300, the current pickup 301 is selected. Is determined to exist in the program area or the lead-out area.

The distance calculator 304 calculates the distance that the pickup 301 will move. The distance calculator 304 calculates the distance the final pickup 301 will move by subtracting the LBA of the pickup 301 from the LBA of the target position to which the pickup 301 will move.

The controller 305 controls the entire system, and in particular, controls the movement of the step motor 306 to move the pickup 301 to the movement distance output from the distance calculator 304.

2 and 4, the controller 305 receives time information (Min: Sec: Frame) of a target position to which the pickup 301 is to be moved from a host (not shown) (step 400). ).

When reception of time information (Min: Sec: Frame) of the target position to which the pickup 301 is to be moved from the host is completed, the controller 305 calculates time information at the current position of the pickup 301, that is, the current position (401). step).

The control unit 305 determines whether the time information of the pickup 301 at the calculated current position is 90 minutes or more (step 402). This is to determine whether the optical disc 300 is for 99 minutes or not.

In the case of the 99-minute optical disc 300, the controller 305 checks the absolute reference position of the pickup 301 (step 403). In the present invention, it is assumed that the step motor 306 is used when the pickup 301 is moved. In addition, whenever the pickup 301 moves to the inner or outer circumference of the optical disk 300, the absolute position of the step motor 306 is updated, and the value is stored in the step register 302. For example, when the pickup 301 moves to the outer circumference of the optical disk 300, the absolute position is added by 1 for each step movement, and the subtraction is subtracted by 1 for each movement to the inner circumference. Each has an absolute position value. When the pickup 301 comes to the center of the optical disk 300, it always has a fixed fixed absolute value, and as shown in FIG.

When the absolute reference position of the pickup 301 is checked, the area determining unit 303 determines that the current position of the pickup 301 (the current position register value of the step motor 306) is the absolute reference position of the pickup 301 (the innermost circumference). And a step motor 306 position register value at the mid-point position of the outermost circumference (step 404).

If the current position of the pickup 301 is larger than the absolute reference position of the pickup 301, the area determination unit 303 determines that the pickup 301 is in the current program area (step 405). The area determining unit 303 refers to the absolute reference position value of the pickup 301, and if the position of the step motor 306 at the current position is smaller than the absolute reference position of the optical disc 300, the current pickup 301 It is judged that it exists in the inner lead-in area. .

If the current position of the pickup 301 is smaller than the absolute reference position of the pickup 301, the area determination unit 303 determines that the pickup 301 is in the current lead-in area (step 406). The area determination unit 303 refers to the absolute reference position value of the pickup 301, and if the position of the step motor 306 at the current position is larger than the absolute reference position of the optical disc 300, the current pickup 301 is programmed. It is determined that it exists in the region or the lead-out region.

When the time information of the current position of the pickup 301 is less than 90 minutes or when the area determination of the pickup 301 is completed in the optical disc 300 for 99 minutes, the distance calculator 304 determines the current position of the pickup 301. The time information is converted into the LBA (step 407). The time information of the pickup 301 is composed of (Min: Sec: Frame), and a value obtained by converting them to a Frame becomes LBA. One minute is 60 seconds and one second is 75 frames. For example, when the time information of the pickup 301 is (91:30:45), when it is converted into LBA, it becomes (91 × 60 × 75) + (30 × 75) +45 = 411759. If the time information of the pickup 301 is 90 minutes or more, the LBA value varies depending on whether the current position of the pickup 301 is a lead-in area or another area (program area or lead-out area). For example, the LBA = 411759-450000 = -38241 for the lead-in area, and the LBA = 411759 for the other areas.

The distance calculation unit 304 calculates the movement distance of the pickup by subtracting the LBA at the current position of the pickup 301 from the LBA of the target position to which the pickup 301 will move (step 408).

When the distance to which the pickup is to be calculated is calculated, the controller 305 controls the step motor 306 to move the pickup by the calculated distance (step 409).

The present invention is not limited to the above-described embodiments and can be modified by those skilled in the art within the spirit of the invention.

As described above, according to the present invention, when the positional information of the pickup is read for access from an optical disc having a playback time of 99 minutes, it is determined whether the pickup is located in the lead-in area or the program area when the area is 90 to 99 minutes. We can do it and create effect that becomes accessible in all sections.

1 is a diagram showing a signal region of a 90-minute optical disc.

2 is a view showing a signal area of an optical disk for 90 minutes or longer.

3 is a block diagram showing a configuration of an apparatus for determining an area of an optical disk according to the present invention.

4 is a flowchart showing the operation of the method for determining the area of an optical disk according to the present invention.

Claims (9)

Pickup moving means for moving the pickup on the optical recording medium; When the pickup receives the target position to which the pickup is to be moved, and the time information at the current position of the pickup moving means is 90 minutes or more, the current position of the pickup is compared with the absolute reference position of the pickup, and the pickup is an optical recording medium. Area determining means for determining which of the lead-in area, program area and lead-out area of the device is located; Calculating means for calculating a moving distance of the pickup by subtracting the current position from the target position; And And movement control means for controlling movement of the pickup moving means in accordance with the calculated movement distance of the pickup. The method of claim 1, wherein the pickup moving means An area judging device, characterized in that the step motor. 2. The apparatus according to claim 1, wherein said area determining means If the current position of the pickup is greater than the absolute reference position of the pickup, it is determined that the pickup is currently in the program area or the lead-out area, and if the current position of the pickup is smaller than the absolute reference position of the pickup, the pickup And determine that it is currently in the lead-in area. 2. The apparatus according to claim 1, wherein said area determining means The absolute reference position of the pickup is updated each time the pickup moves to the inner or outer circumference of the optical recording medium. The method of claim 4, wherein The absolute reference position of the pickup is added by one each time the pickup moves one step to the outer periphery of the optical recording medium, and the absolute reference position of the pickup is one each time the pickup moves one step to the inner periphery of the optical recording medium. And subtracted from each other and having a fixed absolute reference position when the pickup is located at the center of the optical recording medium. (a) receiving a target location from which the pickup will move; (b) When the time information at the current position of the pickup is 90 minutes or more, the current position of the pickup is compared with the absolute reference position of the pickup so that the pickup is a lead-in area, a program area and a lead of the optical recording medium. Determining which of the out areas is located; And (c) calculating the moving distance of the pickup by subtracting the current position from the target position and moving the pickup. The method of claim 6, wherein in step (b) If the current position of the pickup is greater than the absolute reference position of the pickup, it is determined that the pickup is currently in the program area or the lead-out area, and if the current position of the pickup is smaller than the absolute reference position of the pickup, the pickup Determining that the device is currently in the lead-in area. The method of claim 6, wherein in step (b) And the absolute reference position of the pickup is updated each time the pickup moves to the inner or outer circumference of the optical recording medium. The method of claim 8, The absolute reference position of the pickup is added by one each time the pickup moves one step to the outer periphery of the optical recording medium, and the absolute reference position of the pickup is one each time the pickup moves one step to the inner periphery of the optical recording medium. And subtracting each other and having a fixed absolute reference position when the pickup is located at the center of the optical recording medium.