JP4055101B2 - Recording apparatus and recording method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is applied to, for example, a DVD recording / reproducing apparatus (DVD: digital video disk or digital versatile disk), an HDD apparatus (HDD: hard disk drive), Apply Recording device And recording method In particular, when the mounted recording medium is not subjected to formatting processing, the formatting processing is executed by using the non-operating time, thereby shortening the time required to actually record data. Recording device And recording method About.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a DVD recording / reproducing apparatus that performs compression / decompression processing on predetermined data such as image data and audio data using MPEG technology and performs recording / reproduction on, for example, a DVD (digital video disc or digital versatile disc) is known. The DVD recording / reproducing apparatus is provided with, for example, a high image quality recording mode, an intermediate image quality recording mode, and a normal image quality recording mode, and data can be recorded by selecting each recording mode.
[0003]
Specifically, a memory having a predetermined bit (hereinafter referred to as a track buffer (TB)) is provided, and by recording and reproducing data through the track buffer, a difference in transfer rates of data having different transfer rates is achieved. The recording in each recording mode is realized by absorbing the above. As the track buffer, for example, a 4 Mbit DRAM is provided, and data of a transfer rate of 8 Mbps at a variable transfer rate can be stored for about 0.5 seconds. However, today, this 4 Mbit track buffer is rarely used, and it is common to use a 16 Mbit or 64 Mbit track buffer larger than this capacity. The 16 Mbit track buffer can store data at a transfer rate of 8 Mbps at a variable transfer rate for about 2 seconds, and the 64 Mbit track buffer stores data at a transfer rate of 8 Mbps at a variable transfer rate for about 8 seconds. Be able to.
[0004]
By recording data via this track buffer, for example, data of a transfer rate of 8 Mbps is 2 hours in the high image quality recording mode, and data of 4 Mbps transfer rate is 4 hours in the intermediate image quality recording mode. In the normal image quality recording mode, data with a transfer rate of 2 Mbps can be recorded for 8 hours.
[0005]
Japanese Patent Laid-Open No. 10-92158 discloses the relationship between the seek time required for the apparatus and the capacity of the track buffer in order to maintain the continuity of this intermittently reproduced signal. .
[0006]
Here, in order to perform recording on a recordable DVD (disc) such as DVD-RAM or DVD-RW, before starting to use the disc (before recording data), It is necessary to initialize (format) the disc.
[Problems to be solved by the invention]
However, this disk initialization takes a lot of time. For this reason, the conventional DVD recording / reproducing apparatus cannot start data recording until the initialization of the disc is completed. For example, when a continuous image is to be recorded on the disc, However, there was a problem that the recording timing was delayed.
[0007]
Even if the disc has not been initialized, it is possible to start recording data immediately after recording is specified, and to perform initialization when the disc is ejected. Since initialization takes time, in this case, it takes time to eject the disc, which is not preferable.
[0008]
The present invention has been made in view of the above problems, and a recording apparatus in which initialization of the recording medium can prevent inconveniences that hinder the recording operation of the apparatus and the discharging operation of the recording medium. And recording method The purpose is to provide.
[0009]
[Means for Solving the Problems]
The recording apparatus according to the first aspect of the present invention is the case where the recording medium needs to be initialized at the stage of recording information on the recording medium using one recording unit as means for solving the above-described problem. Initialization information forming means for forming initialization information, temporary storage means for temporarily storing recording information which is continuous information recorded on the recording medium,
Read the recording information stored in the temporary storage means and record it on the recording medium using the one recording unit,
It is a time for temporarily storing the record information which is the continuous information in the temporary storage means, Writing the recorded information to the temporary storage means; and Initializing the recording medium using the one recording unit when the recording information stored in the temporary storage means is not recorded on the recording medium using the one recording unit. And a recording means for initializing the recording medium by moving to a necessary area and recording.
[0010]
According to a second aspect of the present invention, there is provided a recording apparatus according to the present invention, wherein, in order to solve the above-described problem, when the recording unit specifies recording of recording information during recording of the initialization information, Conversion The recording of the information is interrupted to record the recording information, and after the recording of the recording information is completed, the remaining initialization information is recorded.
[0011]
According to a third aspect of the present invention, there is provided a recording method according to the present invention, wherein, as a step for solving the above-described problem, the recording medium needs to be initialized at the stage of recording information on the recording medium using one recording unit. An initialization information forming step for forming initialization information;
A temporary storage step of temporarily storing recording information, which is continuous information to be recorded on the recording medium, in a temporary storage unit;
This is the time during which the recording information stored in the temporary storage step is read out and recorded on the recording medium using the one recording unit, and the recording information as the continuous information is temporarily stored in the temporary storage means. And Writing the recorded information to the temporary storage means; and Initializing the recording medium using the one recording unit when the recording information stored in the temporary storage means is not recorded on the recording medium using the one recording unit. Has a recording step of initializing the recording medium by moving to a necessary area and recording.
[0012]
Recording according to the invention as claimed in claim 4 Method In order to solve the above-mentioned problem, the recording Step Is When recording of recording information is designated during recording of the initialization information, the recording of the initialization information is interrupted to record the recording information, and after the recording of the recording information is completed, the remaining initialization information is recorded. I do .
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Recording apparatus according to the present invention And recording method Can be applied to a DVD recording / reproducing apparatus as shown in FIG. The DVD recording / reproducing apparatus according to the first embodiment of the present invention has a video for a recordable DVD-RW disc 1 (DVD rewritable disc: hereinafter simply referred to as disc 1) formed of a phase change material. Data such as information and audio information is recorded and reproduced at a constant linear velocity (CLV).
[0014]
As shown in FIG. 2, the disc 1 is provided with a recording management area (RMA), a lead-in area (LIN), and a data area from the inner circumference side to the outer circumference side. Data indicating the physical state of the disk is recorded in the RMA, and data indicating the type of the disk and the like is recorded in the LIN.
[0015]
The head of the data area is a control data area for recording the logical structure of the recorded data, called “volume structure (VS)”, “file structure (FS)”, and “info file (IF)”. In addition, the tail of the data area is a lead-out area (or border zone).
[0016]
Specifically, LIN is provided between address 22fa0 and address 30000 sectors, and has an area of 3334 ECC blocks. This LIN recording or reproduction takes 80.16 sec. The RMA is provided between the address 203c0 and the address 22f80 sector, and has an area for 700 ECC blocks. This RMA recording or reproduction takes 16.8 seconds.
[0017]
The control data area is provided between the address 30000 and the address of about 40000 sectors, and has an area for 4096 ECC blocks. Further, it takes about 98.304 sec to record or reproduce the control data area. The border zone (or lead-out) has an area for 2944 ECC blocks, and a maximum of 70.656 sec is required for recording or reproduction. In addition to the time for recording data, the disc 1 requires a maximum time of 265.776 sec in order to form an area related to the format.
[0018]
The amount of data for one circumference of the disk 1 is about 2 ECC blocks on the inner circumference of the disk (one ECC block is composed of 16 sectors in error correction processing), and about 4 ECC blocks on the outer circumference of the disk. The rotation period of the disk 1 is about 40 msec on the inner circumference of the disk and about 80 msec on the outer circumference of the disk.
[0019]
Such a DVD recording / reproducing apparatus for recording / reproducing data on / from the disk 1 is designated by the system controller when recording or reproduction is designated via the operation unit 2 such as an operation panel or a remote controller (remote controller). 3 detects this, and drives the disk 1 to rotate at a constant linear velocity via the driver 5 and the spindle motor 9, and drives the actuator of the optical pickup 6 via the servo control circuit 4 and the driver 5 to specify The optical pickup 6 is controlled to move to the recorded track, the data recorded in the LIN is read out, and the specification of the disk 1 is recognized. If the disc 1 is a recordable disc, the RMA is reproduced to detect the recorded data area. Based on the LIN and RMA, the control data in the control data area is read out, the first and last positions of the recording data and defect information are obtained by the volume structure (VS), and the file directory is obtained by the file structure (FS). The structure and the number of files are acquired, and a method such as a video data playback procedure is acquired by an info file (IF), and then data recorded in the data area is played back.
[0020]
The optical pickup 6 forms a reproduction signal (RF signal), a tracking error signal, a focus error signal, and control data based on the reflected light obtained by irradiating the disk 1 with a laser beam. The preamplifier 7 feeds back the tracking error signal, focus error signal, and control data to the servo control circuit 4. Based on the feedback control data, the servo control circuit 4 controls the movement of the optical pickup 6 by driving the actuator so as to reproduce the sector of the target track. The servo control circuit 4 controls the optical pickup 6 via the driver 5 based on the tracking error signal and the focus error signal so that the tracking error and the focus error become zero (feedback control).
[0021]
Further, the preamplifier 7 optimizes the frequency characteristics by performing a predetermined equalizing process on the signal reproduced by the optical pickup 6, performs phase control by a PLL circuit, and supplies the signal to the signal processing circuit 8. Further, the preamplifier 7 forms a jitter value by comparing the bit clock of the PLL circuit with the time axis of the reproduction signal by the jitter generation circuit, and supplies the jitter value to the system controller 3. The system controller 3 detects the jitter value, and performs waveform correction control at the time of recording based on the detected jitter value.
[0022]
When the data is compression-encoded at the MPEG variable transfer rate, the signal processing circuit 8 temporarily stores and reads this data in, for example, the first track buffer 10 (for example, DRAM) of 64 Mbits. Thus, the time variation of the variable transfer rate of the data is absorbed.
[0023]
Further, during recording, the signal processing circuit 8 modulates the data compressed and encoded based on the MPEG technology by the AV encoding / decoding unit 11 into an EFM + signal (8-16 modulation signal), and converts an error correction code. This is added and supplied to the optical pickup 6 via the preamplifier 7. As a result, data is recorded on the disk 1.
[0024]
Further, during reproduction, the signal processing circuit 8 digitizes the reproduction output read from the first track buffer 10 to perform synchronization detection, and converts the reproduction signal that is an EFM + signal (8-16 modulation signal) to NRZ. The data is decoded into the form of data (NRZ: Non Return to Zero) and the NRZ data is subjected to error correction processing and supplied to the AV encoding / decoding unit 11.
[0025]
At the time of recording, the AV encoding / decoding unit 11 performs compression encoding processing based on MPEG technology while controlling writing / reading of data supplied via the input terminal 16 to / from a second track buffer 12 of 64 Mb, for example. At the same time, the video data and the audio data are multiplexed and supplied to the optical pickup 6 via the signal processing circuit 8 and the preamplifier 7.
[0026]
Also, the AV encoding / decoding unit 11 separates video data and audio data from data reproduced by the optical pickup 6 during reproduction, and performs MPEG / Writing while reading / writing control to the second track buffer 12 respectively. The decompression decoding process is performed based on the technology. Then, the audio data subjected to the decompression decoding process is converted into analog data and supplied to, for example, the speaker unit 13 of the television receiver. Thereby, an acoustic output corresponding to the audio data recorded on the disc 1 can be obtained. Further, the video data subjected to the decompression decoding process is supplied to the display control unit 14. The display control unit 14 converts the video data into, for example, an NTSC television signal and supplies it to the display unit 15 of the television receiver. Thereby, a video output corresponding to the video data recorded on the disc 1 can be obtained.
[0027]
Here, in general, when a series of recording operations is completed and the user instructs to take out the disc, the LIN, RMA, control data area and lead-out area (or border zone) are set based on the recorded data. Recording is performed, and the disc is ejected when recording such as LIN is completed. The lead-out area is a predetermined area in order to avoid the inconvenience that the optical pick-up 6 runs away because no data is recorded when seeking the optical pickup 6 near the lead-out area. It is to be recorded.
[0028]
The initialization (formatting) for recording such LIN or the like requires a maximum time of 265.776 sec. Due to this time, the recording timing is delayed or a time is required until the disc is ejected. Although the necessary problems occur, the DVD recording / reproducing apparatus of the first embodiment solves these problems by operating in accordance with each routine of the flowchart of FIG. 3 and executing initialization.
[0029]
That is, the flowchart shown in FIG. 3 starts when the disc 1 is loaded into the DVD recording / reproducing apparatus, and the system controller 3 executes each routine in order from step S1.
[0030]
First, in step S1, the system controller 3 determines whether the currently loaded disc is a reproduction-only disc (DVD-ROM) or a recordable disc (DVD-RW), and a recordable disc. If it is (Yes), the process proceeds to step S2, and if it is a read-only disc (No), there is no need for initialization, so the flowchart shown in FIG.
[0031]
In step S2, the system controller 3 determines whether or not the recordable disc has been initialized. If it has not been initialized, the system controller 3 proceeds to step S3 (if No), and if it has been initialized (Yes) In this case, since there is no need for initialization, the flowchart shown in FIG.
[0032]
In step S3, the system controller 3 determines whether or not there is a request for recording immediately even though the initialization of the disk 1 has not been completed. If there is a request for recording, the process proceeds to step S4. If there is no request, the process proceeds to step S12. In step S12, since there is no request for recording and there is a time margin, the system controller 3 controls the signal processing circuit 8 so as to initialize the disk 1 as usual, and the flowchart shown in FIG. Exit.
[0033]
Next, in step S4, since there is a recording request even though the initialization is not completed, the system controller 3 is supplied via the input terminal 16 shown in FIG. Then, the signal processing circuit 8 is controlled so as to temporarily store the data processed by the signal processing circuit 8 in the first track buffer 10, and the process proceeds to step S5.
[0034]
FIG. 4 is a diagram showing the transition of the amount of data that is controlled to be written / read to / from the first track buffer 10. As can be seen from FIG. 4, when data is controlled to be written to the first track buffer 10. The amount of data stored in the first track buffer 10 changes from EMPTY (a state where the amount of data is zero) to FULL (a state where the storage area allocated for writing data is full) with time. In step S5, the system controller 3 determines whether or not the remaining capacity of the capacity of the first track buffer 10 is close to FULL (predetermined amount: Ta). If it is close to FULL (in the case of Yes), the process proceeds to step S6. If it is not close to FULL (in the case of No), the process proceeds to step S13.
[0035]
In step S13, the system controller 3 executes initialization. Specifically, the system controller 3, as shown in FIG. 4, between time t <b> 1 and time t <b> 2 when the capacity of the first track buffer 10 changes from EMPTY to approximately 1/5 of the total capacity (TBb). The optical pickup 6 is controlled to move to the format area on the disk 1. Then, the format data is recorded in the format area between time t2 and time t3 when the capacity of the first track buffer 10 transitions from time t2 to the remaining amount of about 1/5 of the total capacity (near FULL = Ta). The optical pickup 6 and the signal processing circuit 8 are controlled.
[0036]
The system controller 3 monitors the transition of the capacity of the first track buffer 10 by repeatedly executing the routine of step S5 while recording the format data in the format area. When the capacity of 10 becomes approximately 1/5 of the remaining capacity (TBa) (time t3), the recording of the format data is temporarily stopped and the optical pickup 6 is controlled to move to the position of the sector where the data is recorded. To do. In step S5, the process proceeds to step S6 when it is determined that the first track buffer 10 is close to FULL (TBa).
[0037]
In step S6, since the first track buffer 10 is close to FULL, the recording is performed between time t3 and time t4 when the system controller 3 is between the time when the FULL is near and the time when it actually becomes FULL. The optical pickup 6 is controlled to move to the position of the sector to be executed, and the process proceeds to step S7. Then, in step S7, the process waits for the first track buffer 10 to become FULL, and proceeds to step S8 at the timing when the first track buffer 10 becomes FULL, as shown at time t4 to time t5 in FIG. Thus, the signal processing circuit 8 and the optical pickup 6 are controlled so that data is read from the first track buffer 10 and recorded.
[0038]
For this recording, the DVD recording / reproducing apparatus of the present embodiment, for example, has a high image quality recording mode capable of recording an image for 2 hours at a transfer rate of 8 Mbps, and records an image for 4 hours at a transfer rate of 4 Mbps. There are three recording modes: an intermediate image quality recording mode capable of recording and an ordinary image quality recording mode capable of recording an image for 8 hours at a transfer rate of 2 Mbps, and the user selects one of these three recording modes. Recording corresponding to the selected recording mode is performed.
[0039]
At this time, the first track buffer 10 functions to absorb the difference between the transfer rate of the input data and the transfer rate at the time of actual recording. Specifically, for example, data written to the first track buffer 10 at a transfer rate of 8 Mbps is read at a speed of “10 Mbps−2 Mbps = 8 Mbps” when the writing speed to the disk 1 is 10 Mbps. To be recorded.
[0040]
In the case of DVD-RW (RW: rewritable), the writing speed to the disc at 1 × speed is 11.08 Mbps or 10.08 Mbps, but in this example, in order to simplify the explanation, at 1 × speed In this example, the writing speed to the disk is described as 10 Mbps.
[0041]
Next, by reading the data from the first track buffer 10 and recording it on the disk in this way, the free space of the first track buffer 10 increases as shown in FIG. In step S9, the system controller 3 determines whether or not the free capacity of the first track buffer 10 has become EMPTY. If it has become EMPTY (in the case of Yes), the system controller 3 proceeds to step S10 and has become EMPTY. If not (No), the process returns to step S8, and data recording on the disk 1 is continued so that the free capacity of the first track buffer 10 becomes EMPTY.
[0042]
In step S10, since the free capacity of the first track buffer 10 has become EMPTY, the system controller 3 determines whether or not the recording of all the data to be recorded has been completed. In the case), the process proceeds to step S11. If the recording is not completed (in the case of No), the process returns to step S5. In step S13, the remaining format data is recorded in the format area until the remaining amount of the first track buffer 10 is close to FULL, and data is stored when the remaining amount of the first track buffer 10 is close to FULL. The signal processing circuit 8 and the optical pickup 6 are controlled so as to repeatedly execute the control for recording the data on the disc.
[0043]
That is, apparently data is recorded, but in reality, initialization is performed using the free time of data recording (in parallel with data recording). .
[0044]
Next, in step S11, the system controller 3 determines whether or not the recording of the format data has been completed because the recording of the data has been completed. When all the routines in the flowchart shown in FIG. 3 are completed and the recording of the format data is not completed, the signal processing circuit 8 and the optical pickup 6 are controlled so as to record all the remaining format data, and the process shown in FIG. All the routines in the flowchart shown are completed.
[0045]
As described above, the maximum time required to record all the format data is 265.776 sec. When recording data, if the total free time (t2 to t3) during data recording is 265.776 sec or less, the remaining format data needs to be recorded in step S11, but 265.776 sec or less. Since it is rare to record data corresponding to the idle time, in most cases, all the recording of the format data will already be completed when the data recording is completed.
[0046]
Note that the format processing here records data in a range that can be determined before recording data in the RMA, LIN, and other areas. That is, the format data corresponding to the data to be changed with the data to be recorded needs to be rewritten every time recording is performed. For example, the LIN data has a lot of data recorded as 0 data. On the other hand, in the initial stage of the formatting process, for example, most of data recorded in LIN is 0 data (or FF data: fixed data independent of recording data). For this reason, the format data corresponding to the data changed with the data to be recorded may be recorded in the initial stage of the formatting process.
[0047]
As is apparent from the above description, when the start of data recording is designated, the DVD recording / reproducing apparatus according to the first embodiment starts writing data into the first track buffer 10. The format data is recorded on the disk until the free area of the track buffer 10 is reduced, and when the free area of the first track buffer 10 is reduced, the recording of the format data is temporarily stopped, Data is read from the track buffer 10 and recorded on the disk. Then, when data is read from the track buffer 10 and the free space becomes large, the recording of data to the disk is temporarily stopped, the data writing to the track buffer 10 is continued, and the free space in the track buffer 10 is The format data is recorded on the disk until the area becomes small, and when the free area of the track buffer 10 becomes small, the recording of the format data is temporarily stopped, the data is read from the track buffer 10 and the disk is read. The operation to record in is repeated.
[0048]
Thus, the recording of the format data can be completed using the free time when the data is recorded on the disc. For this reason, data recording can be started immediately without initialization of the disc, and inconvenience that the recording timing is delayed due to initialization when consecutive images are to be recorded on the disc can be prevented. Can do. In addition, since the initialization of the disc can be completed during the data recording, the disc can be ejected immediately upon completion of the recording.
[0049]
In addition, apparently, data is recorded, but the initialization can be terminated without the user's knowledge, so that it is possible to provide a device that does not cause the user to perform the initialization.
[0050]
Next, a DVD recording / reproducing apparatus according to the second embodiment of the present invention will be described. In the DVD recording / reproducing apparatus of the first embodiment described above, initialization is completed using the time during which data is written to the first track buffer 10 during data recording. However, the DVD recording / reproducing apparatus according to the second embodiment uses the idle time during which recording or reproduction is not designated to end initialization.
[0051]
The first embodiment and the second embodiment described above are different only in this point. Therefore, only the difference will be described below, and redundant description will be omitted.
[0052]
FIG. 5 is a flowchart for explaining the initialization operation of the DVD recording / reproducing apparatus according to the second embodiment. This flowchart starts when the disc 1 is loaded on the DVD recording / reproducing apparatus of the second embodiment, and the system controller 3 executes each routine in order from step S21.
[0053]
First, in step S21, the system controller 3 determines whether the currently loaded disc is a read-only disc (DVD-ROM) or a recordable disc (DVD-RW), and a recordable disc. If it is (Yes), the process proceeds to step S22, and if it is a reproduction-only disc (No), there is no need for initialization, so the flowchart shown in FIG.
[0054]
In step S22, the system controller 3 determines whether or not the recordable disc has been initialized. If it has not been initialized, the system controller 3 proceeds to step S23 (if No), and if it has been initialized (Yes) In this case, since there is no need for initialization, the flowchart shown in FIG. In step S23, the system controller 3 sets the unfinished flag indicating that the initialization is not finished to “H (1: high level)”, and proceeds to step S24.
[0055]
In step S24, the system controller 3 determines whether or not reproduction is designated by the user. If Yes, the system controller 3 proceeds to step S30 to perform reproduction processing, and if No, the process proceeds to step S25. In step S25, the system controller 3 determines whether or not recording is designated by the user. If Yes, the system controller 3 proceeds to step S31 to perform data recording processing, and if No, the process proceeds to step S26.
[0056]
The presence or absence of designation of reproduction and recording in step S24 and step S25 is determined based on, for example, the time counted by a timer provided in the system controller 3, and reproduction is performed even after a predetermined time has elapsed. Alternatively, when a signal designating recording is not detected, it is determined that reproduction or recording is not designated by the user.
[0057]
In step S26, although the disk 1 is loaded, neither recording nor reproduction is designated, so that the system controller 3 records the format data in the format area so that the signal processing circuit 8 and the optical pickup 6 are recorded. To step S27.
[0058]
This step S27 is a routine executed in parallel with the operation in which the system controller 3 records the format data in the format area. That is, the system controller 3 monitors the designation of recording or reproduction from the user in step S27 while recording control of the format data in the format area, and if the designation of recording or reproduction is not made. The process proceeds to step S28 (in the case of No), and if recording or reproduction is designated (in the case of Yes), the process proceeds to step S32.
[0059]
In step S32, the system controller 3 determines whether or not recording of all format data has been completed. If recording of all format data has been completed (in the case of Yes), the process proceeds to step S29. If the recording of the format data has not been completed (No), the process proceeds to step S33.
[0060]
In this case, in step S29, since the recording of all the format data has been completed when the recording or reproduction is designated by the user, the system controller 3 sets the unfinished flag which is “H” to the disk. “L (0: low level)” indicating that the initialization of 1 is completed, and all the routines in the flowchart shown in FIG. Then, recording or reproduction control designated by the user is performed.
[0061]
On the other hand, when the recording or reproduction is designated by the user even though the recording of all the format data is not finished, the system controller 3 keeps the unfinished flag at “H” in step S33. The recording of the format data is temporarily stopped and the process returns to step S24. Then, in step S24 and step S30, or in step S25 and step S31, reproduction or recording control designated by the user is performed, and when this reproduction or recording ends, the process proceeds to step S26, and the remaining initialization processing is executed. . Thereby, although the initialization of the disc 1 is not completed, recording or reproduction can be started immediately at the time designated by the user.
[0062]
Next, in step S27, when there is no recording or reproduction instruction and the process proceeds to step S28, the system controller 3 determines whether or not recording of all the format data has been completed. In the case of (), the process returns to step S26 to continue recording the format data, and when the recording is completed (in the case of Yes), the process proceeds to step S29. Then, in this step S29, in order to indicate that the initialization of the disk 1 has been completed, the unfinished flag that is “H” is set to “L”, and all the routines of the flowchart shown in FIG. .
[0063]
As is clear from the above description, the DVD recording / reproducing apparatus of the second embodiment executes the initialization process of the disc 1 using the period during which recording or reproduction is designated after the disc is loaded. . If recording or reproduction is specified during the initialization, the initialization process is interrupted, recording or reproduction is performed, and the remaining initialization process is performed when recording or reproduction is completed.
[0064]
Thereby, initialization can be performed using the free time after the disk is loaded. If recording or reproduction is specified during initialization, the initialization process is interrupted and recording or reproduction is performed, so that data recording and reproduction is started immediately without initialization of the disk. It is possible to prevent inconvenience that the recording timing is delayed due to initialization when continuous images are recorded on the disc. Also, since the initialization can be completed using the free time from when the disc is loaded to when it is ejected, the disc can be ejected immediately upon completion of recording, Also, the recording medium can be discharged faster than before.
[0065]
In addition, since the initialization process is automatically executed when the disc is loaded, the initialization can be terminated without the user's knowledge, and a device that does not intend the initialization to the user can be provided. .
[0066]
The format data corresponding to the data to be changed along with the data to be recorded needs to be rewritten every time recording is performed. For example, most of the LIN data records 0 data. On the other hand, in the initial stage of the formatting process, for example, most of data recorded in LIN is 0 data (or FF data: fixed data independent of recording data). For this reason, the format data corresponding to the data changed with the data to be recorded may be recorded in the initial stage of the formatting process.
[0067]
In the DVD recording / reproducing apparatus of each of the embodiments described above, the formatting operation is performed in which the user fills in at least the zero data by using the idle time from when the disc is inserted to when the disc is taken out. Inconveniences such as shortening the service life can be prevented, dead time can be significantly reduced, and the quality of the apparatus can be improved.
[0068]
Finally, the description of each of the above embodiments is an example of the present invention. For this reason, this invention is not limited to the above-mentioned embodiment. For example, each of the embodiments described above is an example in which the present invention is applied to a DVD recording / reproducing apparatus that performs recording / reproduction on a DVD. However, the present invention can be applied to other recording media such as a so-called hard disk (HDD). In contrast, the present invention may be applied to an apparatus that performs recording and reproduction. Further, the first track buffer 10 of 64 Mbit DRAM is used as the temporary storage means. However, for example, a recording device such as an HDD may be used. Of course, other than the above-described embodiments, various modifications can be made according to the design and the like as long as they do not depart from the technical idea of the present invention.
[0069]
【The invention's effect】
The recording apparatus according to the first aspect of the present invention is a time during which the recording unit temporarily stores the recording information as the continuous information in the temporary storage unit, Writing the recorded information to the temporary storage means; and Initializing the recording medium using the one recording unit when the recording information stored in the temporary storage means is not recorded on the recording medium using the one recording unit. Is moved to the necessary area and recording is performed to initialize the recording medium, so that the recording information is being written to the temporary storage means and the recording information is not written to the recording medium. In the meantime, the recording medium can be initialized. Therefore, it is possible to immediately start recording without initializing the recording medium. Also, the initialization can be completed without adversely affecting the recording operation. In other words, since the initialization of the recording medium can be terminated without the user's knowledge, the recording medium can be immediately ejected when an instruction to eject the recording medium is given. For this reason, it is possible to discharge the recording medium faster than before by performing initialization using the idle time until the recording medium is discharged.
[0070]
According to a second aspect of the present invention, there is provided a recording apparatus according to the present invention, wherein when the recording means designates recording of recording information during recording of the initialization information, Conversion Recording information can be recorded by interrupting the recording of the information, and after the recording information has been recorded, the remaining initialization information can be recorded, so that the initialization can be completed without interrupting the recording operation. The same effect as described above can be obtained.
[0071]
In the recording method according to the third aspect of the present invention, the recording step reads the recording information stored in the temporary storage step, records the information on the recording medium using one recording unit, and records the continuous information. A time for temporarily storing information in the temporary storage means, Writing the recorded information to the temporary storage means; and Initializing the recording medium using the one recording unit when the recording information stored in the temporary storage means is not recorded on the recording medium using the one recording unit. Is moved to the necessary area and recording is performed to initialize the recording medium, so that the recording information is being written to the temporary storage means and the recording information is not written to the recording medium. In the meantime, the recording medium can be initialized. Therefore, it is possible to immediately start recording without initializing the recording medium. Also, the initialization can be completed without adversely affecting the recording operation. In other words, since the initialization of the recording medium can be terminated without the user's knowledge, the recording medium can be immediately ejected when an instruction to eject the recording medium is given. For this reason, it is possible to prevent inconvenience that the discharge of the recording medium is delayed by performing the initialization when the recording medium is discharged.
[0072]
Recording according to the invention as claimed in claim 4 Method The record Step But, When recording of recording information is specified during recording of initialization information, recording of the initialization information is interrupted and recording information is recorded. After the recording of the recording information is completed, recording of the remaining initialization information is performed. Do Thus, the initialization can be completed without interrupting the recording operation, and the same effect as described above can be obtained.
[Brief description of the drawings]
FIG. 1 is a block diagram of a DVD recording / reproducing apparatus according to a first embodiment to which a recording apparatus according to the invention is applied.
FIG. 2 is a schematic diagram for explaining a recording area of a DVD used in the DVD recording / reproducing apparatus according to the first embodiment of the present invention.
FIG. 3 is a flowchart for explaining an initialization operation of the DVD recording / reproducing apparatus according to the first embodiment of the present invention;
FIG. 4 is a diagram for explaining a transition state of an empty area of a first track buffer provided in the DVD recording / reproducing apparatus according to the first embodiment of the present invention and a movement state of a corresponding optical pickup; is there.
FIG. 5 is a flowchart for explaining an initialization operation of the DVD recording / reproducing apparatus according to the second embodiment of the present invention;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Disk, 2 ... Operation part, 3 ... System controller, 4 ... Servo control circuit, 5 ... Driver, 6 ... Optical pick-up, 7 ... Preamplifier, 8 ... Signal processing circuit, 9 ... Spindle motor, 10 ... 1st track | truck Buffer 11, AV encoding / decoding unit 12, second track buffer 13, speaker unit 14, display control unit 15, display unit 16, data input terminal

Claims (4)

When the recording medium needs to be initialized at the stage of recording information on the recording medium using a single recording unit, initialization information forming means for forming initialization information, and continuous information to be recorded on the recording medium Temporary storage means for temporarily storing certain recording information;
Read the recording information stored in the temporary storage means and record it on the recording medium using the one recording unit,
The time for which the record information which is the continuous information is temporarily stored in the temporary storage means, the record information is written to the temporary storage means, and the record information stored in the temporary storage means is stored in the temporary storage means. The initialization information is moved and recorded in an area where the recording medium needs to be initialized using the one recording unit at a time not recorded on the recording medium using the one recording unit. And a recording means for initializing the recording medium.   When recording information is designated during recording of the initialization information, the recording means interrupts the recording of the initialization information and records the recording information, and after the recording of the recording information is completed, The recording apparatus according to claim 1, wherein initialization information is recorded. An initialization information forming step for forming initialization information when the recording medium needs to be initialized at the stage of recording information on the recording medium using one recording unit;
A temporary storage step of temporarily storing recording information, which is continuous information to be recorded on the recording medium, in a temporary storage unit;
This is the time during which the recording information stored in the temporary storage step is read out and recorded on the recording medium using the one recording unit, and the recording information as the continuous information is temporarily stored in the temporary storage means. And writing the recording information to the temporary storage means, and at the time when the recording information stored in the temporary storage means is not recorded on the recording medium using the one recording section. And a recording step of initializing the recording medium by moving the recording information to an area where the recording medium needs to be initialized using the one recording unit. Recording method.   In the recording step, when recording of recording information is designated during recording of the initialization information, the recording of the initialization information is interrupted and recording information is recorded. After the recording of the recording information is completed, the remaining information is recorded. 4. The recording method according to claim 3, wherein the initialization information is recorded.

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