JP3635590B2 - Multilayer disc recorded information reproducing method and reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method and apparatus for reading a disc having a plurality of information recording layers (hereinafter referred to as a multilayer disc), and in particular, reads each of the information recording layers from one main surface side of the disc and reproduces the recorded information. The present invention relates to a method and an apparatus.
[0002]
[Prior art]
In such a multi-layer disc, unlike a disc in which information is recorded on a single recording layer, the reading point is moved from one information recording layer to the next information recording layer, and the recording information of both recording layers is continuously transferred. A playback operation is required. In order to realize such an operation, a necessary and sufficient amount of read information is stored in the memory in advance before the reading point is moved, and the reading of the reading point where the reading is interrupted and the target of the next information recording layer By reproducing the information read from the memory until the reading point is positioned at the address and the reading preparation is completed, the reproduction information is prevented from being interrupted when moving to the reading of the next information recording layer. Conceivable.
[0003]
According to this, the memory needs to have a storage capacity enough to continuously read the reproduction information while reading is interrupted. Therefore, the longer the time spent for the interruption, the larger the storage capacity of the memory. In view of simplification of the configuration, cost reduction, etc., further improvement is desired.
[0004]
[Problems to be solved by the invention]
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a method and apparatus for reproducing multi-layer disc recorded information that can maintain the continuity of reproduced information even when a reading point moves to a new information recording layer with a simple and inexpensive configuration. Is to provide. Another object of the present invention is to provide a reproducing method and a reproducing apparatus for multi-layer disc recording information, which can shorten the reading interruption time when the reading point moves to a new information recording layer. Still another object of the present invention is to provide a method and apparatus for reproducing information recorded on a multi-layer disc capable of reducing the storage capacity required for a memory used when a reading point moves to a new information recording layer. That is.
[0005]
[Means for Solving the Problems]
  The reproducing method according to the present invention is a method for reading and reproducing information recorded on each of the information recording layers by irradiating a multilayer disk having at least two information recording layers with a reading light beam from one main surface side thereof. Before reading the information recorded in any one of the information recording layers,The distance in the disc radial direction between the reading end position of the one information recording layer and the reading start position of the other information recording layer is calculated as position information.A storage step for storing the information in advance, and after the reading of the one information recording layer, the reading target of the reading light beam is switched to the other information recording layer and according to the position informationOnly the amount of deviationAnd a reading layer switching step of moving the reading light beam in the radial direction of the disk.
  Another reproducing method according to the present invention is a method for reading and reproducing information recorded on each of the information recording layers by irradiating a multilayer disc having at least two information recording layers with a reading light beam from one main surface side thereof. The position of the other information recording layer having the same disc radial distance as the reading end position of the one information recording layer is positioned before the end of reading the information recorded on any one of the information recording layers. A storage step of detecting as information and storing the information in advance, and after reading of the one information recording layer, the reading target of the reading light beam is switched to the other information recording layer and the other information indicated by the position information A separation distance between the position of the information recording layer and the reading start position of the other information recording layer is obtained, and the reading light beam is moved in the disc radial direction by a deviation amount corresponding thereto. It is characterized by having a reading layer switching step of moving.
[0006]
  The reproducing apparatus according to the present invention is an apparatus for reading and reproducing information recorded on each of the information recording layers by irradiating a multilayer disk having at least two information recording layers with a reading light beam from one main surface side thereof. Rotation driving means for rotating the multi-layer disc, and a reading light beam radiated to the multi-layer disc so as to be movable in the radial direction to receive the return light from the multi-layer disc, and the amount of light received and / or the light receiving state A reading unit that generates a reading signal according to the control unit, and a control unit that detects that reading of information recorded in any one of the information recording layers is completed based on the reading signal, and the control unit Before the end of reading one of the information recording layers,Means for calculating a separation distance in the disc radial direction between the reading end position of the one information recording layer and the reading start position of the other information recording layer, and using the separation distance as position information;Remember in advanceMeans andAnd after the reading of the one information recording layer, the reading means performs the reading light beam reading target.The otherAnd switch to the information recording layerThe reading means moves the reading light beam in the disc radial direction by the amount of deviation corresponding to the position information.It is characterized by that.
  Another reproducing apparatus according to the present invention reads and reproduces information recorded on each of the information recording layers by irradiating a multi-layer disc having at least two information recording layers with a reading light beam from one main surface side thereof. And a rotational driving means for rotationally driving the multi-layer disc, and a reading light beam irradiating the multi-layer disc so as to be movable in a radial direction thereof to receive the return light from the multi-layer disc and A reading unit that generates a reading signal according to a light receiving state; and a control unit that detects that reading of information recorded in any one of the information recording layers is completed based on the reading signal, The control means is configured to control the other information recording layer having the same disc radius distance as the reading end position of the one information recording layer before the reading end of any one of the information recording layers. Means for detecting the position and means for preliminarily storing the position as position information, and after the reading of the one information recording layer, the reading means performs the reading light beam to be read by the other information recording layer. The information recording layer is switched, and a distance between the position of the information recording layer indicated by the position information and the reading start position of the other information recording layer is obtained, and the reading means is used by the reading means corresponding to the distance. The light beam is moved in the radial direction of the disk.
[0007]
【Example】
First, the recording form of a multilayer disk applied to the present invention can be schematically represented as shown in FIG.
In FIG. 1, when the reading light beam is irradiated in the direction indicated by the arrow a, the first information recording layer is disposed below the second information recording layer. In each recording layer, for example, a signal is recorded in a spiral shape, the reading direction of the first information recording layer is determined from the inner periphery to the outer periphery, and the reading direction of the second information recording layer is determined from the outer periphery to the inner periphery. More specifically, the information is recorded such that the reading of the starting end of the outermost recording portion of the second information recording layer continues following the reading of the end of the outermost recording portion of the first information recording layer. In other words, the premise of the recording process is that the end of the first information recording layer has the same disc radial distance as the start of the second information recording layer. Further, when another information recording layer is disposed on the second information recording layer, the odd numbered information recording layer has the same spiral direction as the first information recording layer, and the even numbered information recording layer has the first information recording layer. 2 The reading direction is determined by the spiral direction similar to that of the information recording layer. The end portions of the information recording layers are aligned with each other so that reading is continued between the information recording layers.
[0008]
FIG. 1 shows a recording form of a multi-layer disc recorded in a spiral shape, but the present invention can also be applied to other types of multi-layer discs. That is, the signal may be recorded in a concentric circle shape or in a form in which a concentric circle shape and a spiral shape are mixed. However, reading continues between the information recording layers as in the case where the reading direction of the odd-numbered information recording layer is determined from the inner periphery to the outer periphery and the reading direction of the even-numbered information recording layer is determined from the outer periphery to the inner periphery. It is assumed that the end portions of each information recording layer are aligned. Further, the present invention is applicable regardless of whether the odd-numbered and even-numbered information recording layers are in the reading direction from the inner periphery to the outer periphery or the reading direction from the outer periphery to the inner periphery, and the reading is performed in units of information recording layers. The order is not limited to the transition from the lower layer to the upper layer. The transition may be from the upper layer to the lower layer, and one or several information recording layers are not necessarily moved to the adjacent information recording layer. The present invention can be applied even if the information recording layer jumps and arbitrarily shifts from the even-numbered information recording layer to the odd-numbered information recording layer or from the odd-numbered information recording layer to the even-numbered information recording layer.
[0009]
FIG. 2 shows a basic configuration of an optical disk recorded information reproducing apparatus according to the present invention. In FIG. 2, a multi-layer disc 1 having the above-described recording form and having first and second information recording layers (surfaces) is mounted on a carriage (not shown) while being rotated by a spindle motor 2, and the disc radius by the carriage motor. A reading light beam from a pickup 3 provided so as to be movable in a direction is irradiated from a predetermined main surface side. The reading light beam is reflected by the multilayer disk 1 and returned to the pickup 3. The pickup 3 receives the return light and performs photoelectric conversion, and supplies the photoelectrically converted signal to the RF amplifier 4 as a reading signal. The RF amplifier 4 amplifies the read signal at high frequency and supplies it to the signal demodulation circuit 5. The signal demodulating circuit 5 is added to the read signal in addition to the function of demodulating the supplied read signal into a digital main information signal related to sound, image, etc. (for example, 8/15 modulation code demodulation processing and error correction processing). And a decoding function for restoring control information signals such as address signals and synchronization signals, that is, control data. The main information signal demodulated by the signal demodulating circuit 5 is supplied to the buffer memory 6 and once written, then sequentially read out and transferred to the audio video decoder 7. The decoder 7 decodes the signal read from the buffer memory 6 (for example, MPEG decoding) and transfers the signal as audio and video data to a sound and image reproduction system (not shown). Of course, the main information signal is not limited to sound and image, but may be computer data or a mixture of these signals.
[0010]
The read signal from the pickup 3 is also supplied to the error generation circuit 8. The error generation circuit 8 generates a tracking error signal, a focus error signal, and a carriage error signal based on each component of the read signal, and supplies them to the pickup control circuit 9. The pickup control circuit 9 generates a drive signal for controlling the irradiation position (reading point) of the reading light beam formed by the pickup 3 on the disk 1 to coincide with the recording track of the disk 1 according to the tracking error signal. This is supplied to the pickup 3. The pickup 3 drives a built-in tracking actuator that deviates the reading point in the disk radial direction in response to the drive signal. The pickup control circuit 9 also generates a drive signal for controlling the reading point to substantially coincide with the recording surface of the disk 1 to be read in response to the focus error signal, and supplies this to the pickup 3. The pickup 3 drives a built-in focus actuator in response to this drive signal. Further, the pickup control circuit 9 generates a drive signal for controlling the deviation amount of the tracking actuator to be zero according to the carriage error signal, and supplies this to the carriage motor. In response to this drive signal, the carriage motor performs a carriage to drive the entire pickup 3 in the disk radial direction. The loop of the pickup 3 (or carriage motor), error generation circuit 8 and pickup control circuit 9 forms a tracking servo loop, a focus servo loop, and a carriage servo loop during normal reproduction.
[0011]
The read signal amplified by the RF amplifier 4 is also supplied to the spindle error generating circuit 10, where the actual rotation speed of the disk 1 obtained based on the synchronization signal included in the read signal and a predetermined rotation speed are obtained. A spindle error signal corresponding to the error is generated and supplied to the spindle control circuit 11. The spindle control circuit 11 supplies a drive signal for rotating the disk 1 at a predetermined rotational speed to the spindle motor 2 based on the supplied spindle error signal. The loops of the pickup 3, the RF amplifier 4, the spindle error generation circuit 10, the spindle control circuit 11, and the spindle motor 2 form a spindle servo loop during normal reproduction.
[0012]
A system control circuit 12 is provided as a means for overall control of these units. The system control circuit 12 follows the display 13 and the operation button group 14 to display the operation state of the apparatus and the signal demodulation circuit 5 according to various operation modes designated by the user pressing the operation button group 14. Corresponding control signals are supplied to the buffer memory 6, the pickup control circuit 9, the spindle control circuit 11, and the decoder 7. More specifically, the system control circuit 12 receives the control data contained in the read signal from the signal demodulation circuit 5, determines more detailed control parameters according to the content, and demodulates the timing signal for signal demodulation. Or supply to the circuit 5. The system control circuit 12 controls writing and reading of the buffer memory 6, opens / closes each servo loop including the pickup control circuit 9 and the servo loop including the spindle control circuit 11, a tracking actuator, a focus actuator, a carriage Interruptive or forced drive control for the motor and spindle motor 2 is also performed. Furthermore, the system control circuit 12 also controls the decoder 7 in accordance with the contents of the main information signal, the operation state of the decoder 7, the user's operation, and the like.
[0013]
Next, a characteristic operation in the optical disc recorded information reproducing apparatus will be described.
FIG. 3 shows an initial focus control process executed by the system control circuit 12. The system control circuit 12 detects that a new disk has been loaded during execution of a main routine (not shown). When it is determined that it is necessary to perform the focus control operation from the beginning, a focus activation command is issued to call this initial focus control subroutine.
[0014]
First, the system control circuit 12 issues a command for focus lock, and supplies a control signal to the pickup control circuit 9 to align the reading point with the first information recording layer (step S11). When the focus servo is activated in step S11 and the focus lock is completed, the final address of the first information recording layer is searched (step S12). If the pickup 3 is positioned at the home position on the innermost circumference side of the disc 1 at the start of the processing in step S12 and the reading direction of the first information recording layer is the direction from the inner circumference to the outer circumference of the disc, Under the servo, the system control circuit 12 moves the pickup 3 in the outer peripheral direction via the pickup control circuit 9 and detects the end point where the information of the first information recording layer is recorded, and when the end point is detected. The movement of the pickup 3 is stopped. Such end detection is preferably based on the address, and the final address of the layer recorded in the lead-in area of the first information recording layer is read at the time of the first focus lock and stored in the RAM in the system control circuit 12, It is desirable that end detection is performed by detecting whether the address data included in the control data from the signal demodulating circuit 5 matches the stored final address.
[0015]
When the search for the last address in the first information recording layer is completed in step S12, the focus jump is made to the second information recording layer while holding the reading point so as to scan the position of the last address (step S13). In this processing, when the final address is detected in step S12, the tracking and carriage control are performed using the pickup control circuit 9 so that the reading point is immediately held at the position where the final address is recorded. Operation is performed. In the focus jump, the focus servo with respect to the first information recording layer so far is cut off, and the objective lens that forms the reading point is driven and controlled in the optical axis direction by the focus actuator of the pickup 3 so that the reading point is set to the first information recording layer. This is performed by reaching the second information recording layer from the information recording layer. The fact that the reading point has reached the second information recording layer is determined by, for example, monitoring the focus error signal level and presenting a predetermined change in the error signal level, and finally the address read in step S15 described later. Can be confirmed.
[0016]
After the focus jump is performed in step S13, the system control circuit 12 issues a command for focus lock, similar to step S11, and this time the pickup control circuit 9 is adjusted to align the reading point with the second information recording layer. A control signal is supplied (step S14). When focus locking is completed in step S14, the address of the position where the reading point is scanned in the second information recording layer is read (step S15). Next, the system control circuit 12 stores the difference between the address read in step S15 and the target address (step S16).
[0017]
In this case, the target address refers to the starting end where information is recorded in the second information recording layer (that is, referred to as the starting address), and a series of addresses recorded on the disc is continuous over the first and second information recording layers. If it has the above value, the value next to the value of the final address of the first information recording layer is indicated. Therefore, if the final address of the first information recording layer is N as shown in FIG. 4, the target address is N + 1, which corresponds to the beginning of the second information recording layer. The address of the second information recording layer read in step S15 is recorded at a position where the position of the final address N of the first information recording layer is equal to the distance from the center of the disk (disk radius distance). As shown in FIG. 3, it is assumed that N + 3001, for example. Then, the difference between the two addresses obtained in step S16 is (N + 3001) − (N + 1) = 3000, which is from the position of the last address N of the first information recording layer to the position of the start address N + 1 of the second information recording layer. Corresponds to the distance in the disc radial direction, that is, the amount of deviation of the start of the second information recording layer with respect to the end of the first information recording layer. The amount of deviation is also obtained as (N + 3001) − (N) −1 = 3000 using the final address N of the first information recording layer stored in the RAM in the system control circuit 12.
[0018]
In a general multi-layer disc, when recording is performed so as to be continuously reproduced from the i-th information recording layer to the i + 1-th information recording layer, the last address of the i-th information recording layer and the start address of the i + 1-th information recording layer If it is continuous, at least one address may be stored in the RAM at the time of the first focus lock.
[0019]
As shown in FIG. 4, various causes for the start of the second information recording layer being displaced from the end of the first information recording layer can be considered. Basically, as described at the beginning of this section, in the multi-layer recording disk, the end portions of the information recording layers are aligned so that reading continues. If the end of the second information recording layer coincides with the starting end of the first information recording layer at exactly the same disc radius distance, reading can be resumed immediately from the start of the second information recording layer by only a focus jump. is there. However, in reality, an eccentricity error or a track pitch error occurs in the disk manufacturing process for each information recording layer, or an error in the position of the information recording layer when the multilayer disk is manufactured. Due to these errors and the like, the end portions of the respective information recording layers are shifted from each other and recorded. As an example, it has been found that there is a possibility that the second information recording layer start end may be located with a deviation amount of 0.5 mm with respect to the first information recording layer end. At this time, if the track pitch is 0.74 μm and the addresses are inserted along the track at an interval of about 4.8 mm, the address is about 51000 due to a deviation of 0.5 mm in the vicinity of the radius of 116 mm of the disk. It will be shifted.
[0020]
After step S16, the process proceeds to the main routine.
After the focus control of FIG. 3 is performed, good continuous reproduction across the information recording layers becomes possible. The flowchart of FIG. 5 shows the procedure of the continuous reproduction control executed by the system control circuit 12. When the continuous reproduction mode is designated, the routine proceeds to this routine during information reproduction of the first information recording layer.
[0021]
That is, the system control circuit 12 first determines whether or not reading of the first information recording layer is completed (step S21). If not completed, this determination process is repeated, and information reproduction of the first information recording layer is performed. continue. When it is determined in step S21 that the reading of the first information recording layer is completed, the system control circuit 12 starts the second information recording layer stored in the previous step S16 together with the focus jump to the second information recording layer. The reading point is moved in the disk radial direction according to the amount of deviation (address value) (step S22). Therefore, according to the previous example, the amount of deviation is 3000. Therefore, as shown by the arrow drawn with a dotted line in FIG. 4, the movement in the optical axis direction due to the focus jump and the amount of the amount of deviation at the start of the second information recording layer Simultaneous movement of the disk radial direction is performed. As a result, the reading point can quickly reach the recording position at the address N + 1 from the recording position at the address N.
[0022]
After step S22, the system control circuit 12 issues a command for focus lock and supplies a control signal to the pickup control circuit 9 in order to align the reading point with the second information recording layer (step S14). Step S23). When focus lock is completed in step S23, the target address is searched (step S24), and reading of the second information recording layer is started (step S25).
[0023]
In the flow of FIG. 5, the reading point is already positioned near the recording position of the start address of the second information recording layer in step S22, and focus lock is completed near the search target (step S23). The search for the head address is very short. On the other hand, after the reading of the first information recording layer is completed, only the focus jump to the second information recording layer is performed and the processing after step S23 is performed. In the example of FIG. The address N + 1 must be searched from the vicinity of the recording position of the address N + 3001, and the moving distance of the reading point necessary for the search becomes long, and a great deal of time is consumed. As described above, in the flow of FIG. 5, the search time to the start end of the second information recording layer is shortened by moving the reading point by the start end deviation amount of the second information recording layer at the time of the focus jump before the search. As a result, the time required from the end of reading the first information recording layer to the start of reading the second information recording layer (reading interruption time) is shortened.
[0024]
The effect of shortening the reading interruption time can be described with reference to FIG.
FIG. 6 is a graph in which the data occupation amount (the amount of write data that has not been read) in the buffer memory 6 is plotted on the vertical axis and the elapsed time is plotted on the horizontal axis. It is represented.
[0025]
Under the control of the system control circuit 12, the buffer memory 6 writes the main information signal from the signal demodulation circuit 5 at a predetermined rate fw, and sequentially reads out the written main information signal at the predetermined rate fr to the decoder 7. I try to forward it. The buffer memory 6 is preferably a so-called FIFO type memory that reads data in the order of writing. Here, fw> fr, and if writing and reading are performed in parallel in the buffer memory 6, a writing amount larger than the reading amount per unit time is generated, and the data occupation amount is the storage capacity of the buffer memory 6 ( The maximum amount of data that can be stored is approaching.
[0026]
When the data occupying amount of the buffer memory 6 reaches a predetermined value corresponding to the storage capacity of the buffer memory 6 or slightly smaller than that, the system control circuit 6 puts the pickup 3 into a pause state and stops writing to the buffer memory 6 To do. Such a pause corresponds not only to the tracking control through the pickup control circuit 9 that holds the reading point so that the recording position read immediately before the pause is repeatedly scanned, but also to the recording position read immediately before the pause through the spindle control circuit 11. This is accompanied by an operation to maintain the disc rotation speed. During the pause, the buffer memory 6 stops reading while continuing reading, so that the data occupation amount continues to decrease at the reading rate fr. When the data occupation amount falls below the predetermined amount, the system control circuit 6 cancels the pause, puts the pickup 3 into the reading state, and resumes writing in the buffer memory 6. As a result, the recording position after the recording position read immediately before the pause is sequentially scanned, and the disk 1 is controlled at the rotational speed corresponding to the scanning position. Thus, until the reading of one information recording layer is completed, continuous reading of the buffer memory 6 is performed, while the pause state and the reading state are alternately repeated in the pickup 3 and the spindle motor 2, and are synchronized therewith. Thus, writing stop and writing are repeated alternately in the buffer memory 6.
[0027]
After all the reading of the first information recording layer is completed, the operation from the movement including the focus jump of the reading point as described in the previous steps S22 to S24 until the reading preparation of the second information recording layer is completed. Done. During this operation, the pickup 3 suspends reading and the buffer memory 6 performs only reading without writing, so that the data occupation amount continues to decrease at the reading rate fr. If the time of the movement / preparation period is too long, the buffer memory 6 has no storage data to be read, and therefore the data occupation amount becomes zero, and data connected thereafter cannot be continuously output as reproduction information. . Therefore, the buffer memory 6 is required to have a memory capacity equal to or larger than the total amount of data read during the movement / preparation period.
[0028]
Therefore, in order to shorten the time required for this movement / preparation period, in step S22 described above, the reading point is moved by the starting end deviation amount of the second information recording layer at the time of the focus jump before the search. Thus, the reading interruption time when the reading point moves to the second information recording layer is shortened, and the memory capacity required for the buffer memory 6 is reduced. Such shortening of movement / preparation time and reduction of memory capacity contribute not only to the simplification of the configuration but also to cost reduction.
[0029]
After the movement / preparation period, the reading mode is designated again for the pickup 3 and the writing mode is designated for the buffer memory 6. When the data occupation amount first reaches a predetermined value in the vicinity of the storage capacity of the buffer memory 6 in the information reproduction of the second information recording layer, the repeated operations of pause, read, write stop and write are performed again as described above. Is done. 3 and 5, the difference between the read address and the target address is obtained and stored in step S16 executed in the initial focus control, and the focus jump is executed in step S22 executed in the continuous reproduction control. At this time, the reading point is moved in the radial direction of the disk in accordance with the stored difference (starting edge deviation amount of the second information recording layer), but the present invention is not limited to this mode. As another aspect, the flows of FIGS. 7 and 8 can be cited.
[0030]
In FIG. 7, the address of the second information recording layer corresponding to the end of the first information recording layer read in step S15 is stored (step S16A). In FIG. 8, when the reading of the first information recording layer is completed, the second information corresponding to the end of the first information recording layer stored in step S16A is accompanied with the focus jump to the second information recording layer. The address of the information recording layer is read and the difference between this address and the target address is obtained (step S22A). In short, as shown in FIGS. 3 and 5, in the initial focus control, the starting end deviation amount of the second information recording layer is not obtained, but instead the address of the second information recording layer corresponding to the end position of the first information recording layer is stored. In addition, in the continuous reproduction control, the starting end deviation amount of the second information recording layer is obtained from the stored address. As described above, even if the starting end deviation amount of the second information recording layer is obtained in the continuous reproduction control from the address of the second information recording layer corresponding to the end position of the first information recording layer stored in the initial focus control, FIG. The effect equivalent to the control of FIG. 5 can be obtained. However, since the process of step S22A in FIG. 8 involves an operation for obtaining the difference between the two addresses, the reading point is moved more quickly than the process of step S22 in FIG. It may be disadvantageous from the viewpoint of.
[0031]
3 and 5 and FIGS. 7 and 8 are slightly different in control method, but are different in that the reading point is moved by the amount of deviation of the start edge of the second information recording layer at the time of the focus jump before the search. This point forms one of the main requirements of the present invention.
In short, in order to move the reading point by the starting end deviation amount of the second information recording layer at the time of the focus jump before the search, reading on the second information recording layer is started in advance before the reading of the first information recording layer is completed. It is only necessary to store position information regarding the reading start position at that time. The position information regarding the reading start position is the amount of deviation of the second information recording layer in step S16 in the above description, and the address of the second information recording layer corresponding to the end position of the first information recording layer in step S16A. Both are used for deriving a reading start position when starting reading in the second information recording layer, and various other position information can be considered. For example, if the start position of the second information recording layer is grasped as absolute position information on the disc, the absolute position on the disc at that point in time when reading of the end of the first information recording layer is completed. It can be easily derived from the information how much the reading point should be moved toward the starting end position of the second information recording layer.
[0032]
In the above description, the example in which the address data obtained from the read signal of the disk is applied as an indication of the recording position of the disk has been described. However, basically, the disk is used by other information in place of this address data. The recording position may be pointed to. In the embodiment, the start address of the second information recording layer is used as the target address, but it is not always necessary to use the start address as the target address. If there is no problem in reproducing information, an address in the vicinity of the head address (for example, address N + 2001 in FIG. 4) may be adopted as the target address, or an address that is intentionally far from the head address. Of course, may be adopted as the target address. In addition, in the embodiment, the recording end of the first information recording layer is adopted as the reading end position of the first information recording layer, but the present invention is not limited to this. If there is no problem in reproducing information, an intermediate address in the vicinity of the recording end (for example, address N-1000 in FIG. 4) may be adopted as the reading end position. It is also possible to adopt an address separated from each other as the reading end position.
[0033]
Further, only the optical disk is mentioned as the recording medium. However, the present invention is not limited to this, and even a mixed optical and magnetic disk is read from one main surface side. Basically, it can be applied to any multilayer disc from which recorded information can be read by a light beam.
[0034]
【The invention's effect】
As described above in detail, according to the present invention, the reading interruption time can be shortened when the reading point moves to a new information recording layer, and the storage capacity required for the memory used at that time can be reduced. Can be small. As a result, the continuity of the reproduction information is maintained with a simple and inexpensive configuration.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing a recording form of a multilayer disc applied to the present invention.
FIG. 2 is a block diagram showing a basic configuration of an optical disc recorded information reproducing apparatus according to the present invention.
FIG. 3 is a flowchart showing a processing procedure of initial focus control executed in the apparatus of FIG. 1;
4 is a schematic diagram showing movement of a reading point at the time of a focus jump in the apparatus of FIG.
FIG. 5 is a flowchart showing a processing procedure of continuous reproduction control executed in the apparatus of FIG. 1;
6 is a graph showing the relationship between the reading operation and the buffer memory state in the apparatus of FIG. 1;
FIG. 7 is a flowchart showing a modification of the processing procedure of initial focus control.
FIG. 8 is a flowchart showing a modified example of the processing procedure of continuous reproduction control.
[Explanation of symbols]
1 Multi-layer disc
2 Spindle motor
3 Optical pickup
4 RF amplifier
5 Signal demodulation circuit
6 Buffer memory
7 Decoder
8 Error generation circuit
9 Pickup control circuit
10 Spindle error generation circuit
11 Spindle control circuit 11
12 System control circuit
13 Display
14 Operation buttons

Claims (8)

A method of reading and reproducing information recorded on each of the information recording layers by irradiating a multi-layer disc having at least two information recording layers with a reading light beam from one main surface thereof,
Before the end of reading the information recorded on one of the information recording layers, the distance in the disc radial direction between the reading end position of the one information recording layer and the reading start position of the other information recording layer is positioned. A storage step of calculating as information and storing this in advance;
After the reading of the one information recording layer is completed, the reading layer of the reading light beam is switched to the other information recording layer and the reading light beam is moved in the disc radial direction by a deviation amount corresponding to the position information. And a switching step for reproducing information recorded on the multilayer disc. A method of reading and reproducing information recorded on each of the information recording layers by irradiating a multi-layer disc having at least two information recording layers with a reading light beam from one main surface thereof,
Before the end of reading of information recorded on one of the information recording layers, the position of the other information recording layer having the same disc radius distance as the reading end position of the one information recording layer is detected as position information. A storage step for storing this in advance;
After the reading of the one information recording layer, the reading target of the reading light beam is switched to the other information recording layer, and the position of the other information recording layer indicated by the position information and the other information recording layer And a reading layer switching step of obtaining a separation distance from the reading start position and moving the reading light beam in the disc radial direction in accordance with a deviation amount corresponding thereto. 3. The method for reproducing recorded information on a multi-layer disc according to claim 1, further comprising a step of searching for a reading start position of the other information recording layer after the reading layer switching step. 4. The multilayer disc recording information reproducing method according to claim 1, wherein the reading end position and the reading start position are indicated by an address recorded on the multilayer disc. An apparatus for reading and reproducing information recorded on each of the information recording layers by irradiating a multi-layer disc having at least two information recording layers with a reading light beam from one main surface side thereof,
Rotation drive means for rotationally driving the multilayer disk, and irradiating the multilayer disk with a reading light beam so as to be movable in the radial direction, receiving return light from the multilayer disk, and depending on the received light quantity and / or light reception state Reading means for generating a read signal;
Control means for detecting completion of reading of information recorded in any one of the information recording layers based on the read signal;
The control means calculates a separation distance in the disc radial direction between the reading end position of the one information recording layer and the reading start position of the other information recording layer before the reading of any one of the information recording layers is completed. And means for preliminarily storing the separation distance as position information, and after reading the one information recording layer, the reading means performs the reading light beam reading target on the other information recording layer. An apparatus for reproducing multi-layer disk recording information, wherein the reproducing means moves the reading light beam in the radial direction of the disk by switching to a layer and performing the reading means by a deviation amount corresponding to the position information. An apparatus for reading and reproducing information recorded on each of the information recording layers by irradiating a multi-layer disc having at least two information recording layers with a reading light beam from one main surface side thereof,
Rotation drive means for rotationally driving the multilayer disk, and irradiating the multilayer disk with a reading light beam so as to be movable in the radial direction, receiving return light from the multilayer disk, and depending on the received light quantity and / or light reception state Reading means for generating a read signal;
Reading of information recorded on one of the information recording layers is completed based on the read signal Control means for detecting
The control means detects the position of the other information recording layer having the same disc radius distance as the reading end position of the one information recording layer before the reading of either one of the information recording layers; Means for preliminarily storing the position as position information, and after the reading of the one information recording layer, the reading means switches the reading target of the reading light beam to the other information recording layer. The distance between the position of the information recording layer indicated by the position information and the reading start position of the other information recording layer is obtained, and the reading means is moved in the disc radial direction by the reading means corresponding to the distance. A reproducing apparatus for recording information on a multi-layer disc, characterized by being moved. 7. The reproducing apparatus for recording information on a multi-layer disc according to claim 5, wherein the control means issues a search command for a reading start position of the other information recording layer after the movement of the reading light beam. 8. The multilayer disc recording information reproducing apparatus according to claim 5, wherein the reading end position and the reading start position are indicated by an address recorded on the multilayer disc.

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