JP3607157B2 - Optical disk playback device - Google Patents

Description

[0001]
【Technical field】
The present invention relates to an optical disk reproducing apparatus, and more particularly to an optical disk reproducing apparatus for reproducing an optical disk in which presentation information in a compressed format such as compressed music data and compressed moving image data is recorded by being divided into blocks.
[0002]
[Prior art]
An optical disc called CD-R (Compact Disc-Recordable), which is an additional type optical disc on which a user can record an arbitrary large amount of information such as computer data, has appeared. In this optical disk, various data can be recorded in accordance with the format of CD-ROM instead of music data of CD (compact disk). In the CD-ROM, one block (one physical sector) is composed of 98 subcodes of the CD, and one block = 2352 bytes. Of these, the first 16 bytes are header information, which consists of a synchronization signal and an ID signal (address + mode). The subsequent 2048 bytes (mode 1) or 2336 (mode 2) are valid data. In the case of mode 1, the remaining 288 bytes are error detection / correction codes (ECC). FIG. 7 shows the CD-ROM format of mode 1.
[0003]
FIG. 8 shows a configuration of a general optical disk reproducing apparatus. 1 is an optical disk recorded in the CD-ROM format, 10 is a large-capacity buffer memory (DRAM) having a storage capacity of 90 blocks (90 × 2352 bytes), 2 is reading desired recording information on the optical disk 1, An optical disk reading unit that temporarily stores data, a spindle motor 3 that rotates the optical disk 1, an optical pickup 4 that irradiates a laser beam to the optical disk 1, receives a reflected beam, photoelectrically converts it, and outputs it; A thread motor 5 that performs the above, a head amplifier 6 that creates an EFM signal, a focus error signal, a tracking error signal, etc. from the output of the optical pickup 4, a CLV control signal is created from the EFM signal, a subcode is read and output, DR by reading block information in block units Based on the signal processing circuit 7 to be stored in M10, the focus error signal, the tracking error signal, and the CLV control signal, the spindle servo for the spindle motor 3, the focus servo and the tracking servo for the optical pickup 4, and the various servos for the sled servo for the thread motor 5 are performed. A servo circuit 8 is provided, and a controller 9 is provided for controlling each part of the optical disk reading unit in accordance with instructions from a microcomputer to be described later.
[0004]
When an address search command for certain block information is received from the microcomputer 11 that has received a request from the host, the controller 9 controls the servo circuit 8 and the signal processing circuit 7 of the optical disk reading unit 2 and is read by the signal processing circuit 7. The desired address of the optical disc 1 is searched while monitoring the subcode Q channel, and after the search, block information for 90 consecutive blocks after the desired address (one block information is header information, valid data (user data), It consists of 2354 bytes of ECC (see FIG. 7) and is temporarily stored in the DRAM 10. When the block information for 90 blocks is read, the controller 9 outputs a read completion notification signal to the microcomputer 11, and the microcomputer 11 which has received the read completion notification signal gives a pause command to the controller 9, and the host side When there is a transfer permission notification from the host side, the block information stored in the DRAM 10 is sequentially transferred to the host side. In response to the pause command, the controller 9 controls the servo circuit 8 and the signal processing circuit 7 to make it pause.
[0005]
The microcomputer 11 monitors the free space of the DRAM 10 and gives a pause release command to the controller 9 when a certain amount of free space is generated. Upon receiving the pause release command, the controller 9 controls the servo circuit 8 and the signal processing circuit 7 to release the pause, and the DRAM 10 fills the block information of each successive block after the address next to the last read address last time. Read until When the DRAM 10 is full, the microcomputer 11 gives a pause command again to interrupt reading from the optical disc 1, and then gives a pause release command when a certain amount of free space is generated in the DRAM 10 and resumes reading from the optical disc 1 again. Thereafter, the same control is repeated.
[0006]
[Problems to be solved by the invention]
Recently, compressed music data in a format called MP3 (MPEG1 audio-layer 3) is stored in a semiconductor memory, MP3 data is read from the semiconductor memory, input to an MP3 decoder, decompressed, and D / A converted. Thus, portable players that obtain analog audio signals and output the amplified audio signals to earphones have been put into practical use. However, since the semiconductor memory is very expensive when the capacity is large, there is an inconvenience that a large number of songs cannot be recorded. In this respect, since the CD-R is an inexpensive and large-capacity medium, if MP3 data is recorded on the CD-R, a large number of songs can be reproduced.
However, since the conventional CD-ROM playback device only reads block information in accordance with the CD-ROM format, even if the read block information is directly input to the conventional MP3 decoder, it cannot be expanded and music can be played back. There wasn't.
In view of the problems of the prior art described above, the present invention Consists of compressed presentation information in each block information An object of the present invention is to provide an optical disk reproducing apparatus that can extract valid data with a relatively simple configuration and output it to the decompression means.
[0007]
[Means for Solving the Problems]
In the optical disk reproducing apparatus according to claim 1 of the present invention, the compression format Music or video Presentation information is divided and recorded in blocks. Each block information includes header information and effective data constituting divided presentation information. Optical disk reading means for reading continuous block information after a desired block for an optical disk and storing it in primary storage means capable of storing block information for n (n is an integer of several tens or more) blocks In an optical disk playback device comprising: M blocks each smaller than n Make presentation information A first secondary storage means and a second secondary storage means capable of storing valid data; Music or video Presentation information Make The expansion means for inputting valid data, decompressing and outputting, and the optical disk reading means are controlled, and a plurality of continuous block information including desired presentation information is read from the optical disk and stored in the primary storage means, while the primary storage is performed. Of the desired block information including the desired presentation information stored in the means. Make presentation information Read / transfer control means for transferring valid data by m blocks to the free side of the first secondary storage means and the second secondary storage means, and the first secondary storage means or second Presentation information stored on one side of the secondary storage means previously transferred Make When the valid data is output to the decompression means and the one side becomes empty, the presentation information stored on the other side Make When the valid data is output to the decompression means and the other side becomes empty, the presentation information stored on the previous one side Make Output control means for repeating the control of outputting valid data to the decompression means.
According to claim 1, at the time of presentation information playback, from the block information of a large number of consecutive blocks including the desired presentation information read from the optical disk and stored in the primary storage means, Make presentation information Since only valid data can be extracted and output to the decompression means, the decompression means can correctly perform the decompression operation. In addition, two secondary storage means having a capacity much smaller than that of the primary storage means are prepared, and one secondary storage means is provided with the primary storage means Make presentation information While transferring valid data, the other secondary storage means already transferred from the other primary storage means to the decompression means Make presentation information Effective data is output, so there is no interruption while reducing the burden on the storage means. Make presentation information Valid data can be output.
In the optical disk reproducing apparatus according to claim 2 of the present invention, the compression format Music or video Presentation information is divided and recorded in blocks. Each block information includes header information and valid data constituting divided presentation information. Optical disk reading means for reading continuous block information after a desired block for an optical disk and storing it in primary storage means capable of storing block information for n (n is an integer of several tens or more) blocks In an optical disk playback device comprising: M blocks each smaller than n Make presentation information A first secondary storage means and a second secondary storage means capable of storing valid data; Music or video Presentation information Make The expansion means for inputting valid data, decompressing and outputting, and the optical disk reading means are controlled, and a plurality of continuous block information including desired presentation information is read from the optical disk and stored in the primary storage means, while the primary storage is performed. Of the desired block information including the desired presentation information stored in the means. Make presentation information A read / transfer control process for transferring valid data in units of m blocks to the free side of the first secondary storage means and the second secondary storage means; and the first secondary storage means or the second secondary storage means Presentation information stored on one side of the secondary storage means previously transferred Make When the valid data is output to the decompression means and the one side becomes empty, the presentation information stored on the other side Make When the valid data is output to the decompression means and the other side becomes empty, the presentation information stored on the previous one side Make And a microcomputer for executing an output control process for repeating the control of causing the decompression means to output valid data.
According to claim 2, at the time of presentation information playback, from the block information of a large number of consecutive blocks including desired presentation information read from the optical disk and stored in the primary storage means, Make presentation information Since only valid data can be extracted and output to the decompression means, the decompression means can correctly perform the decompression operation. In addition, two secondary storage means having a capacity much smaller than that of the primary storage means are prepared, and one empty secondary storage means is provided from the primary storage means. Make presentation information While transferring valid data, the other secondary storage means already transferred from the other primary storage means to the decompression means Make presentation information Effective data is output, so there is no interruption while reducing the burden on the storage means. Make presentation information Valid data can be output. Also, the reading control for the optical disk reading means, the desired block information from the primary storage means to the two secondary storage means Make presentation information Effective data transfer control, presentation information from two secondary storage means to decompression means Make Since effective data output control can be performed using a microcomputer, there is no need to make a dedicated control IC.
In the optical disk reproducing apparatus according to claim 3 of the present invention, the compression format Music or video Presentation information and predetermined management information are separately recorded in blocks. Each block information includes header information and effective data constituting divided presentation information or header information and effective data constituting divided management information. Optical disk reading means for reading continuous block information after a desired block for an optical disk and storing it in primary storage means capable of storing block information for n (n is an integer of several tens or more) blocks In an optical disk playback device comprising: M blocks each smaller than n Make presentation information or management information A first secondary storage means and a second secondary storage means capable of storing valid data; Music or video Control the decompression means for inputting and decompressing and outputting the effective data of the presentation information and the optical disc reading means, and at the time of management information analysis, reading a plurality of continuous block information including desired management information from the optical disc While being stored in the primary storage means, the block information in the block information including the desired management information is stored in the primary storage means. Create management information Valid data is not analyzed among the first secondary storage means and the second secondary storage means for m blocks. Create management information When the presentation information is played back, it is transferred to the side where no valid data exists, and a plurality of continuous block information including the desired presentation information is read from the optical disk and stored in the primary storage means, while the contents stored in the primary storage means are stored. Desired block information including desired presentation information Make presentation information Read / transfer control means for transferring valid data to the empty side of the first secondary storage means and the second secondary storage means in units of m blocks, and at the time of management information analysis, the first secondary storage means Unanalyzed stored in storage means or second secondary storage means Create management information Analyzing means for analyzing the effective data to determine the recording position of the desired presentation information, and one of the first secondary storage means or the second secondary storage means that has been previously transferred during presentation information playback. Stored presentation information Make When the valid data is output to the decompression means and the one side becomes empty, the presentation information stored on the other side Make When the valid data is output to the decompression means and the other side becomes empty, the presentation information stored on the previous one side Make Output control means for repeating the control of outputting valid data to the decompression means.
According to claim 3, at the time of presentation information playback, from the block information of a large number of consecutive blocks including the desired presentation information read from the optical disk and stored in the primary storage means, Make presentation information Since only valid data can be extracted and output to the decompression means, the decompression means can correctly perform the decompression operation. In addition, two secondary storage means having a capacity much smaller than that of the primary storage means are prepared, and one secondary storage means is provided with the primary storage means. Make presentation information While transferring valid data, the other secondary storage means already transferred from the other primary storage means to the decompression means Make presentation information Effective data is output, so there is no interruption while reducing the burden on the storage means. Make presentation information Valid data can be output. Further, when analyzing the management information, from the block information including the desired management information read from the optical disk and stored in the primary storage means Create management information Only valid data is taken out and unanalyzed out of the two secondary storage means. Create management information Since the data is transferred to the side without valid data and analyzed, it is not necessary to prepare a separate storage means for analysis, and the burden on the storage means can be minimized.
In the optical disk reproducing apparatus according to claim 4 of the present invention, the compression format Music or video Presentation information and predetermined management information are separately recorded in blocks. Each block information includes header information and effective data constituting divided presentation information or header information and effective data constituting divided management information. Optical disk reading means for reading continuous block information after a desired block for an optical disk and storing it in primary storage means capable of storing block information for n (n is an integer of several tens or more) blocks In an optical disk playback device comprising: M blocks each smaller than n Make presentation information or management information A first secondary storage means and a second secondary storage means capable of storing valid data; Music or video Control the decompression means for inputting and decompressing and outputting the effective data of the presentation information and the optical disc reading means, and at the time of management information analysis, reading a plurality of continuous block information including desired management information from the optical disc While being stored in the primary storage means, the block information including the desired management information stored in the primary storage means Create management information Valid data is not analyzed in the first secondary storage means and the second secondary storage means for m blocks. Create management information When the presentation information is reproduced, it is transferred to the side where no valid data exists, and is stored in the primary storage means while reading a plurality of continuous block information including the desired presentation information from the optical disc, while the internal information stored in the primary storage means is stored. Desired block information including desired presentation information Inside presentation information A read / transfer control process for transferring valid data to the empty side of the first secondary storage means and the second secondary storage means in units of m blocks, and the first secondary storage at the time of management information analysis Unanalyzed stored in storage means or second secondary storage means Create management information Analyzing the valid data to obtain the recording position of the desired presentation information, and one of the first secondary storage means or the second secondary storage means previously transferred during presentation information playback Stored presentation information Make When the valid data is output to the decompression means and the one side becomes empty, the presentation information stored on the other side Make When the valid data is output to the decompression means and the other side becomes empty, the presentation information stored on the previous one side Make And a microcomputer for executing an output control process for repeating the control of causing the decompression means to output valid data.
According to claim 4, at the time of presentation information playback, from block information of a large number of consecutive blocks including desired presentation information read from the optical disk and stored in the primary storage means, Make presentation information Since only valid data can be extracted and output to the decompression means, the decompression means can correctly perform the decompression operation. In addition, two secondary storage means having a capacity much smaller than that of the primary storage means are prepared, and one secondary storage means is provided with the primary storage means Make presentation information While transferring valid data, the other secondary storage means already transferred from the other primary storage means to the decompression means Make presentation information Effective data is output, so there is no interruption while reducing the burden on the storage means. Make presentation information Valid data can be output. Further, when analyzing the management information, from the block information including the desired management information read from the optical disk and stored in the primary storage means Create management information Only valid data is taken out and unanalyzed out of the two secondary storage means. Create management information Since the data is transferred to the side without valid data and analyzed, it is not necessary to prepare a separate storage means for analysis, and the burden on the storage means can be minimized. Also, the reading control for the optical disk reading means, the desired block information from the primary storage means to the two secondary storage means Make presentation information or management information Transfer control of valid data, analysis of management information, presentation information from two secondary storage means to decompression means Make Since effective data output control can be performed using a microcomputer, it is not necessary to make a dedicated control IC.
In the above first to fourth aspects, m may be an integer much smaller than n, for example, about 1 to 5, and preferably 1 or 2.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing a configuration of an optical disk reproducing apparatus according to an embodiment of the present invention. The same components as those in FIG. 8 are denoted by the same reference numerals.
Reference numeral 1A denotes a CD-R which is a kind of optical disc, and the program area includes compressed presentation information (here, MP3 data which is one of compressed music data) and the presentation information on the CD-R1A. The management information for managing the recording position is recorded by a large number of block information divided into block units in accordance with the mode 1 CD-ROM format. Block information of each block includes valid data (MP3 data) of presentation information and header information (synchronization signal + ID signal) and error detection / correction code (ECC), or valid data of management information, header information, and error detection / correction code. The data length of one block information is 2352 bytes. As shown in FIG. 2, it is assumed here that the management information is recorded in the first management information recording area of the program area, and the presentation information is recorded in units of music. In FIG. 2, the address of the next block is represented by a number larger by 1 than the address of a certain block.
[0009]
The management information includes a song management information table prepared for each song and a song management information table pointer indicating which song is recorded in which block. The song-specific management information table pointer exists in the first part of the management information recording area. In the music management information table for music number i, the recording start position (start address) and recording end position (end address) of the presentation information of music number i on CD-R1A are recorded.
[0010]
Reference numeral 20 denotes a RAM which is read and written by a microcomputer which will be described later, and a first secondary buffer memory area 20 having a storage capacity (2048 bytes) capable of storing valid data for one block. ₁ , Second secondary buffer memory area 20 ₂ Is provided. Reference numeral 21 denotes an operation unit for a user to select music, and 22 denotes an MP3 decoder composed of a DSP (digital signal processor), which decompresses MP3 data and outputs digital audio data. A D / A conversion circuit 23 D / A converts digital audio data and outputs an analog audio signal.
[0011]
Reference numeral 24 denotes a microcomputer that controls the entire apparatus, and controls the optical disk reading unit 2 in accordance with a music selection operation in the operation unit 21 to read desired management information or desired presentation information and store it in the DRAM 10. Read control processing and first and second buffer memory areas 20 from the DRAM 10 to the RAM 20 ₁ , 20 ₂ Transfer control processing, analysis processing of desired management information read from the CD-R 1A, and first and second buffer memory areas 20 ₁ , 20 ₂ The output control processing of the effective data of the desired presentation information stored in the MP3 decoder 22 is performed.
The other components in FIG. 1 are the same as those in FIG. 8, and the large-capacity DRAM 10 having a storage capacity of 90 blocks has a function as primary storage means.
[0012]
3 and 4 are flowcharts showing main processing (including optical disc reading control processing and management information analysis processing) by the microcomputer 24. FIGS. 5 and 6 show sub processing (including optical disc reading control processing) by the microcomputer 24. A flowchart will be described below with reference to these drawings. The main process and the sub process are executed in parallel by time division. Initially, the DRAM 10 is assumed to be empty.
[0013]
(1) Reading and analyzing management information
When the user performs a music selection operation of, for example, song number 2 on the operation unit 21, the microcomputer 24 sets A ′ (see FIG. 2), which is the first address of the management information recording area, in the main processing of FIGS. First and second secondary buffer memory areas 20 ₁ , 20 ₂ Are set to 1 and 2, respectively, to read the block information at the address A 'and the first secondary buffer memory area 20 ₁ The sub-process is instructed to transfer to the side (steps S10 to S12 in FIG. 3). Subsequently, A ′ is incremented to read the block information at the address A ′ (= A + 1). The second secondary buffer memory area 20 ₂ The sub-process is instructed to transfer to the side (steps S13 and S14). Then, the first secondary buffer memory area 20 ₁ It waits for the block information (however, only valid data) to be transferred (step S15).
[0014]
In the sub-processes of FIGS. 5 and 6, if the main process is instructed to read / transfer the block information at the address A ′, “YES” is determined in step S 50, and the block information of the address instructed this time exists in the DRAM 10. Since the DRAM 10 is cleared (step S52), a search command for the address A 'is given to the optical disc reading unit 2 and blocks for 90 consecutive blocks after the address A' are checked. BL ₀ , BL ₁ , BL ₂ ,... Are read (step S53). The optical disk reading unit 2 that has received the search command from the microcomputer 24 searches the address A ′ of the CD-R 1A, and after the search, reads block information for 90 consecutive blocks after the address A ′ and temporarily stores it in the DRAM 10. After that, a reading completion notification signal is output to the microcomputer 24. The microcomputer 24 having input the read completion notification signal determines that the reading of 90 blocks has been completed, determines YES in step S54, and gives a pause command to the optical disk reading unit 2 to pause (step S55).
[0015]
Then, the block BL at the address A ′ = A designated by the current read / transfer instruction ₀ Only the valid data in the block information of the designated first secondary buffer memory area 20 ₁ (Step S56). Then, the free capacity of the DRAM 10 is monitored to check that a predetermined amount of free space has occurred (step S60 in FIG. 6), and since it is not yet checked whether the next read / transfer instruction is issued from the main process (step S61). ). Since the read / transfer instruction for the second address A ′ (= A + 1) has already been instructed in the main processing, it is determined YES in step S61 and the block information of the address instructed this time exists in the DRAM 10 is checked. (Step S51 in FIG. 5), since it is YES, the block BL at the address (A + 1) designated by the current read / transfer instruction ₁ The second secondary buffer memory area 20 in which only valid data in the block information is designated ₂ (Step S56). Then, the free capacity of the DRAM 10 is monitored to check whether a predetermined amount of free space has occurred, to check whether the next reading / transfer instruction has been issued by the main process, and to check whether the reading end instruction has been issued by the main process ( Steps S60, S61, and S62 in FIG. 6).
[0016]
First secondary buffer memory area 20 ₁ When the effective data portion of the first block information is transferred to the microcomputer 24, the microcomputer 24 determines YES in step S15 of FIG. 3 in the main processing, and the first secondary buffer memory area 20 ₁ The valid data transferred to is analyzed (step S16). Then, there is a song management information table pointer for the song number 2 selected by the user, and the address A of the block in which the song management information table for the song number 2 is recorded in the management information recording area. _N Is checked (step S17). If it is NO here, A ′ is incremented, the block information at address A ′ is read, and the first secondary buffer memory area 20 is read. ₁ The sub-process is instructed to transfer to the side (steps S18 and S19). In the sub-process receiving the instruction, it is checked whether or not the block information of the address instructed this time exists in the DRAM 10 (YES in step S61 in FIG. 6, step S51 in FIG. 5). Block BL at address (A + 2) specified by transfer instruction ₂ First secondary buffer memory area 20 in which only valid data in the block information of ₁ (Step S56).
[0017]
In the main process, following step S19 of FIG. 3, the second secondary buffer memory area 20 ₂ It waits for the block information to be transferred to (step S20). Already the second secondary buffer memory area 20 ₂ If the block information has already been transferred, it is determined YES in step S20, e is set to 2, and f is set to 1 (step S21). Then, the process proceeds to step S16, and the second secondary buffer memory area 20 ₂ The valid data transferred to is analyzed (step S16). Then, there is a music management information table pointer for the music number 2 selected by the user, and the address A of the block in which the music management information table for music number 2 is recorded in the management information recording area. _N Is checked (step S17). If it is still NO, A ′ is incremented and block BL at address A ′ is incremented. ₃ Block information of the second secondary buffer memory area 20 ₂ The sub-process is instructed to transfer to the side (steps S18 and S19). In the sub-process receiving the instruction, it is checked whether or not the block information of the address instructed this time exists in the DRAM 10 (YES in step S61 in FIG. 6, step S51 in FIG. 5). Block BL at address (A + 3) specified by transfer instruction ₃ The second secondary buffer memory area 20 in which only valid data in the block information is designated ₂ (Step S56). Thereafter, the same processing is repeated.
[0018]
When the transfer of block information from the DRAM 10 proceeds and a predetermined amount of space is generated, the microcomputer 24 determines YES in step S60 of FIG. 6 during sub-processing, and gives a pause release command to the optical disk reading unit 2. . Receiving the command, the optical disk reading unit 2 releases the pause, reads the block information of each successive block after the address next to the last read address last time, and temporarily stores it in the DRAM 10 (step S63). As a result, the free capacity of the DRAM 10 decreases. After step S63, the microcomputer 24 checks whether the free space of the DRAM 10 has become zero and is full, checks whether the next read / transfer instruction has been issued by the main process, and whether the read end instruction has been issued by the main process. Perform (Steps S64, S65, S66 in FIG. 6).
[0019]
Thereafter, on the main processing side, the microcomputer 24 reads the block information at a certain address A ′ and the e-th secondary buffer memory area 20. _e 3 is instructed to the sub-process (step S19 in FIG. 3), in the sub-process receiving the instruction, YES is determined in step S65 in FIG. 6, and the block of the address instructed this time in the DRAM 10 is determined. Whether or not the information exists is checked (step S67). If YES, only the valid data in the block information at the address designated by the current read / transfer instruction is designated, and the e-th secondary buffer memory area 20 is designated. _e (Step S68). The e-th secondary buffer memory area 20 is obtained by the Meni process. _e As a result of analyzing the management information transferred to, when the answer is YES in step S17 of FIG. _N Block information of the e-th secondary buffer memory area 20 _e The sub-process is instructed to transfer to the other side (step S22). The designated block information is stored in the e-th secondary buffer memory area 20. _e (Step S23).
[0020]
In the sub-process that has received the instruction, it is checked whether or not the block information of the address instructed this time exists in the DRAM 10 (YES in step S65, S67). If YES, the process proceeds to step S68. If there is, the DRAM 10 is cleared and the address A is stored in the optical disk reading unit 2. _N Search command, address A _N The block information of subsequent blocks is read (steps S52 and S53 in FIG. 5). Upon receiving the search command, the optical disk reading unit 2 receives the address A of the CD-R 1A. _N After searching, address A _N The subsequent block information for 90 blocks is read and temporarily stored in the DRAM 10.
[0021]
When a read completion notification signal indicating that the reading of 90 blocks has been completed is input from the optical disk reading unit 2, the microcomputer 24 determines YES in step S54, gives a pause command to the optical disk reading unit 2, and pauses. (Step S55), the address A designated by the current read / transfer instruction _N Only valid data in the block information of the designated e-th secondary buffer memory area 20 _e (Step S56). Then, the microcomputer 24 determines YES in step S23 of the main process, and the e-th secondary buffer memory area 20 _e Is analyzed, and the start address N of the presentation information of song number 2 _S And end address N _E Is stored in the work area of the RAM 22, and the analysis process is terminated (step S24).
[0022]
(2) Reading and playing presentation information
After step S24, the microcomputer 24 starts the address N at the beginning of the track number 2 in the main process of FIG. _S (= A + i + 1, see FIG. 2) B ′, first and second secondary buffer memory areas 20 ₁ , 20 ₂ Are set to 1 and 2, respectively, and the block information at the address B 'is read and the first secondary buffer memory area 20 is set. ₁ Is directed to the sub-process (steps S30 and S31). Subsequently, B ′ is incremented, the block information at the address B ′ is read, and the second secondary buffer memory area 20 is read. ₂ The sub-process is instructed to transfer to the side (steps S32 and S33). Then, the first secondary buffer memory area 20 ₁ It waits for the block information to be transferred to (step S34).
[0023]
In the sub-processes of FIGS. 5 and 6, if the main process is instructed to read / transfer the block information at the address B ′ before the DRAM 10 is full, it is determined YES in step S 65 of FIG. It is checked whether there is block information of the address instructed this time (step S67). If it is NO here, after clearing the DRAM 10 (step S52 in FIG. 5), a search command for the address B ′ is given to the optical disk reading unit 2, and 90 consecutive blocks BL after the address B ′ are given. _{A + i + 1} , BL _{A + i + 2} , BL _{A + i + 3} ,... Are read (step S53). Upon receiving the search command, the optical disk reading unit 2 searches the address B ′ of the CD-R 1A, and after the search, reads block information for 90 consecutive blocks after the address B ′, temporarily stores it in the DRAM 10, and then reads it. A completion notification signal is output. The microcomputer 24 having input the notification signal determines YES in step S54, gives a pause command to the optical disk reading unit 2 to make it pause (step S55), and specifies the address B designated by the current read / transfer instruction. 'Block BL _{i + 1} Only the valid data in the block information of the designated first secondary buffer memory area 20 ₁ (Step S56). Then, it waits for the next reading / transfer instruction from the main process (step S61 in FIG. 6).
[0024]
In the Meni process, the second address B ′ (= N _S + 1 = A + i + 2. 2 (see FIG. 2), it is determined YES in step S61, and it is checked whether the block information of the address instructed this time exists in the DRAM 10 (step S51 in FIG. 5). Since YES, the block BL at the address (A + i + 2) designated by the current read / transfer instruction _{i + 2} Only the valid data in the block information of the designated second secondary buffer memory area 20 ₂ (Step S56). Then, it waits for the next reading / transfer instruction from the main process (step S61 in FIG. 6).
[0025]
First secondary buffer memory area 20 ₁ When the valid data of the first block information of the music number 2 is transferred to the microcomputer 24, the microcomputer 24 determines YES in step S34 of FIG. 4 in the main process, and the first secondary buffer memory area 20 ₁ The MP3 data which is the valid data stored in is sequentially read and output to the MP3 decoder 22 for transfer (step S35). The MP3 decoder 22 expands the input MP3 data and outputs digital audio data. The digital audio data is D / A converted and output. First secondary buffer memory area 20 ₁ Becomes empty, the microcomputer 24 (B'-1) is the end address N of the song number 2. _E (= A + j) is checked (steps S36 and S37). If NO, B ′ is incremented, e is set to 2, and f is set to 1 (step S38). Read first secondary buffer memory area 20 ₁ The sub-process is instructed to transfer to the side (step S39). In the sub-process receiving the instruction, it is checked whether or not the block information of the address instructed this time exists in the DRAM 10 (YES in step S61 in FIG. 6, step S51 in FIG. 5). The address (N _S + 2 = A + i + 3. Block BL of FIG. 2) _{i + 3} First secondary buffer memory area 20 in which only valid data of the block information is designated ₁ (Step S56).
[0026]
On the other hand, in the main process, following step S39, the second secondary buffer memory area 20 ₂ It is checked whether the block information has already been transferred (step S34). Here, from the DRAM 10 to the first and second secondary buffer memory areas 20. ₁ , 20 ₂ One block of valid data is transferred to one of the first and second secondary buffer memory areas 20 ₁ , 20 ₂ Compared with the output of valid data for one block from one of the signals to the MP3 decoder 22, this is done in a short time. Therefore, the microcomputer 24 determines YES in step S34 immediately after the processing in step S39, proceeds to step S35, and proceeds to the second secondary buffer memory area 20. ₂ Since the already transferred valid data (MP3 data) is sequentially output to the MP3 decoder 22, the output of the MP3 data to the MP3 decoder 22 is not interrupted. Then, the second secondary buffer memory area 20 ₂ While outputting MP3 data from the other first secondary buffer memory area 20 ₁ The valid data for one block is transferred from the DRAM 10 in a short time.
[0027]
Second secondary buffer memory area 20 ₂ Becomes empty, the microcomputer 24 (B'-1) is the end address N of the song number 2. _E (NO in step S36, S37). If NO, B ′ is incremented, e is set to 1, and f is set to 2 (step S38). Secondary buffer memory area 20 ₂ The sub-process is instructed to transfer to the side (step S39). In the sub-process receiving the instruction, it is checked whether or not the block information of the address instructed this time exists in the DRAM 10 (YES in step S61 in FIG. 6, step S51 in FIG. 5). The address (N _S + 3 = A + i + 4. Block BL of FIG. 2) _{i + 4} The second secondary buffer memory area 20 in which only valid data of the block information is designated ₂ (Step S56).
[0028]
On the other hand, in the main process, following step S39, the first secondary buffer memory area 20 ₁ Is checked (step S34), the process proceeds to step S35, and the first secondary buffer memory area 20 is checked. ₁ Since the already transferred valid data (MP3 data) is sequentially output to the MP3 decoder 22, the output of the MP3 data to the MP3 decoder 22 is not interrupted. Then, the first secondary buffer memory area 20 ₁ While outputting MP3 data from the other second secondary buffer memory area 20 ₂ The valid data for one block is transferred from the DRAM 10 in a short time. Thereafter, the same processing is repeated.
[0029]
When the transfer of block information from the DRAM 10 proceeds and a predetermined amount of free space is generated, the microcomputer 24 determines YES in step S60 of FIG. 6 during sub-processing, and gives a pause release command to the optical disk reading unit 2. . Receiving the command, the optical disk reading unit 2 releases the pause, reads the block information of each successive block after the address next to the last read address, and temporarily stores it in the DRAM 10 (step S63). As a result, the free capacity of the DRAM 10 decreases. After step S63, the microcomputer 24 checks whether or not the free space of the DRAM 10 is full, checks whether the next read / transfer instruction is issued by the main process, and checks whether the read end instruction is issued by the main process. Perform (Steps S64, S65, S66 in FIG. 6).
[0030]
On the main processing side, the microcomputer 24 reads the block information at a certain address B ′ and the f-th secondary buffer memory area 20. _f When the sub-process is instructed to transfer to the side (step S39 in FIG. 4), in the sub-process that received the instruction, YES is determined in step S65 in FIG. Whether or not the information exists is checked (step S67). If YES, only the valid data in the block information at the address designated by the current read / transfer instruction is designated, and the f-th secondary buffer memory area 20 is designated. _f (Step S68). The f-th secondary buffer memory area 20 _f The valid data transferred to is output to the MP3 decoder 22 by the subsequent main processing (step S35 in FIG. 4).
[0031]
After that, when the DRAM 10 becomes full, the microcomputer 24 determines YES in step S64 in the sub-process, gives a pause command to interrupt reading from the CD-R 1A, and starts from the DRAM 10 with the first or second secondary buffer. Memory area 20 ₁ , 20 ₂ MP3 data transfer to the first and second secondary buffer memory area 20 ₁ , 20 ₂ Only MP3 data is output from the MP3 to the MP3 decoder 22. When a certain amount of free space is generated in the DRAM 10, a pause cancel command is given again to resume reading from the CD-R 1A.
Thereafter, if YES in step S37 of FIG. 4 in the main process, the MP3 data of the music number 2 has been lost, so the transfer to the MP3 decoder 22 is terminated and the reading end is instructed to the sub-process (step S40) Upon receiving the reading end instruction, the sub-process gives a reading stop command to the optical disc reading unit 2, stops the reading operation from the CD-R 1A, and finishes the present presentation information reproduction process (YES in step S62, S70, or step YES in S66, S71).
[0032]
According to this embodiment, the microcomputer 24 controls the optical disk reading unit 2 when reproducing presentation information, and reads the block information of a large number of consecutive blocks constituting the desired presentation information from the CD-R 1A to provide a large capacity. Is stored temporarily in the DRAM 10, while from the DRAM 10 in the block information of the blocks constituting the desired presentation information. Make presentation information Since only valid data (MP3 data) is extracted and output to the MP3 decoder 22, the MP3 decoder 22 can correctly perform the decompression operation. In addition, two first and second secondary buffer memory areas 201 and 202 having a capacity much smaller than that of the DRAM 10 are prepared, and one empty secondary buffer memory area is provided from the DRAM 10. Make presentation information While transferring valid data (MP3 data), the other side already transferred from the DRAM 10 in parallel to the MP3 decoder 22 is transferred. Make presentation information Effective data (MP3 data) is output in order, so there is no interruption in the capacity of the storage means. Make presentation information Valid data (MP3 data) can be output to the MP3 decoder 22.
[0033]
Further, when analyzing the management information, the microcomputer 24 controls the optical disk reading unit 2 to read the block information of a large number of continuous blocks constituting the desired management information from the CD-R 1A and temporarily store it in the large capacity DRAM 10. On the other hand, from the DRAM 10, the block information of the blocks constituting the desired management information Create management information Only valid data is extracted, and the two first and second secondary buffer memory areas 20 ₁ , 20 ₂ Of which unparsed Create management information Since the data is transferred to the side without valid data and analyzed, it is not necessary to prepare a separate storage means for analysis, and the burden on the storage means can be minimized. Also, optical disc reading control for reading desired management information or presentation information from the CD-R 1A and storing it in the DRAM 10, and first and second secondary buffer memory areas 20 from the DRAM 10. ₁ , 20 ₂ Transfer control to the first and second secondary buffer memory areas 20 ₁ , 20 ₂ Since the output control of MP3 data to the MP3 decoder 22 and the analysis of management information can be performed using a microcomputer, it is not necessary to create a dedicated control IC, and the burden on the configuration is not increased.
[0034]
In the above-described embodiment, the CD-R has been exemplified as an example of the optical disc. However, the present invention can be similarly applied to other types such as a CD-RW (compact disc-rewritable). The compressed presentation information may also be music data in a compressed format other than MP3, or compressed moving image data. The capacity of the DRAM is 90 blocks, but it may be more than several tens of blocks. First and second buffer memory areas 20 ₁ , 20 ₂ In addition, the storage capacity m of each block may be one block, two blocks, or m = 3 or 4 or 5 or 6. Only the valid data in the block information is stored in the first and second buffer memory areas 20 for m blocks from the DRAM. ₁ , 20 ₂ It is only necessary to forward to one of these.
[0035]
【The invention's effect】
According to the present invention, at the time of presentation information playback, from the block information constituting the desired compression format presentation information read from the optical disk and stored in the large-capacity primary storage means, Make presentation information Since only valid data can be extracted and output to the decompression means, the decompression means can correctly perform the decompression operation. In addition, two secondary storage means having a capacity much smaller than that of the large-capacity primary storage means are prepared, and the primary storage means is provided as one secondary storage means. Make presentation information While transferring valid data, from the secondary storage means that has been transferred from the other primary storage means to the decompression means Make presentation information Effective data is output, so there is no interruption while reducing the burden on the storage means. Make presentation information Valid data can be output.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an optical disc reproducing apparatus according to an embodiment of the present invention.
FIG. 2 is an explanatory diagram of recorded contents of the CD-R in FIG.
FIG. 3 is a flowchart showing a main processing by the microcomputer in FIG. 1;
4 is a flowchart showing a main processing by the microcomputer in FIG. 1. FIG.
FIG. 5 is a flowchart showing sub-processing by the microcomputer in FIG. 1;
6 is a flowchart showing sub-processing by the microcomputer in FIG. 1. FIG.
FIG. 7 is an explanatory diagram of a CD-ROM format.
FIG. 8 is a block diagram showing a configuration of a conventional optical disc playback apparatus.
[Explanation of symbols]
1A CD-R 2 optical disc reader
10 DRAM 20 RAM
20 ₁ First secondary buffer memory area
20 ₂ Second secondary buffer memory area
22 MP3 decoder 23 D / A conversion circuit
24 Microcomputer

Claims (4)

Compressed music or moving picture presentation information is divided and recorded in units of blocks , and each block information is a continuous block after a desired block for an optical disc including header information and effective data constituting divided presentation information. In an optical disc reproducing apparatus comprising an optical disc reading means for reading information and storing it in a primary storage means capable of storing block information for n (n is an integer of several tens or more) blocks ,
First secondary storage means and second secondary storage means capable of storing valid data comprising presentation information for m blocks each smaller than n;
And extension means for inputting the valid data constituting the presentation information of music or moving picture compression format, and outputs the extension,
The optical disk reading means is controlled, and a plurality of continuous block information including desired presentation information is read from the optical disk and stored in the primary storage means, while the desired information including the desired presentation information is stored in the primary storage means. Read / transfer control means for transferring valid data constituting the presentation information in the block information to the empty side of the first secondary storage means and the second secondary storage means for m blocks,
Of the first secondary storage means or the second secondary memory means, to output to the decompression means valid data forming the presentation information stored on one side of which is transferred first, when one side of the is empty The effective data forming the presentation information stored on the other side is output to the decompression means, and when the other side becomes empty, the effective data forming the presentation information stored on the other side is output to the expansion means. Output control means for repeating the control,
An optical disc reproducing apparatus comprising: Compressed music or moving picture presentation information is divided and recorded in units of blocks , and each block information is a continuous block after a desired block for an optical disc including header information and effective data constituting divided presentation information. In an optical disc reproducing apparatus comprising an optical disc reading means for reading information and storing it in a primary storage means capable of storing block information for n (n is an integer of several tens or more) blocks ,
First secondary storage means and second secondary storage means capable of storing valid data comprising presentation information for m blocks each smaller than n;
And extension means for inputting the valid data constituting the presentation information of music or moving picture compression format, and outputs the extension,
The optical disk reading means is controlled, and a plurality of continuous block information including desired presentation information is read from the optical disk and stored in the primary storage means, while the desired information including the desired presentation information is stored in the primary storage means. A read / transfer control process for transferring valid data constituting the presentation information in the block information to the empty side of the first secondary storage means and the second secondary storage means for m blocks; Of the secondary storage means or the second secondary storage means, the valid data forming the presentation information stored on one side transferred earlier is output to the decompression means, and when one side becomes empty, the other the valid data forming the presentation information stored in the side is outputted to the extension means, the side of said other is empty, the previous one A microcomputer that executes an output control process of repeating the control that is output to the decompression means valid data forming the presentation information stored in the side,
An optical disc reproducing apparatus comprising: Compression format music or video presentation information and predetermined management information are divided and recorded in units of blocks, and each block information is divided into header data and effective data constituting the divided presentation information or header information and management information divided. For the optical disk including the effective data forming the target block, continuous block information after the desired block is read, and the block information for n (n is an integer of several tens or more) blocks is stored in the primary storage unit capable of storing the block information. In an optical disk reproducing apparatus provided with an optical disk reading means ,
First secondary storage means and second secondary storage means capable of storing effective data comprising presentation information or management information for m blocks each smaller than n;
Decompression means for inputting valid data of presentation information of compressed music or moving image , decompressing and outputting, and
The optical disk reading means is controlled, and at the time of management information analysis, a plurality of continuous block information including desired management information is read from the optical disk and stored in the primary storage means, while the desired information is stored in the primary storage means. There is no valid data constituting unanalyzed management information among the first secondary storage means and the second secondary storage means for m blocks of valid data constituting the management information in the block information including the management information. When reproducing presentation information, a plurality of continuous block information including desired presentation information is read from the optical disc and stored in the primary storage means, while the desired presentation is stored in the primary storage means. the valid data constituting the presentation information in the desired block information including information, first secondary by m blocks minutes憶 means and of the second secondary memory means, and read and transfer control means for transferring to the side of the empty,
Analyzing means for analyzing the effective data constituting the unanalyzed management information stored in the first secondary storage means or the second secondary storage means at the time of management information analysis and obtaining a recording position of desired presentation information;
When the presentation information is reproduced, the first secondary storage means or the second secondary storage means outputs the valid data constituting the presentation information stored on one side previously transferred to the decompression means, When the side is free, to output the valid data constituting the other presentation information stored on the side of the expansion means, the side of said other is empty, the effective data forming the presentation information stored on one side of the previous extension Output control means for repeating the control of causing the means to output, and
An optical disc reproducing apparatus comprising: Compressed music or video presentation information and predetermined management information are divided and recorded in units of blocks, and each block information is divided into header data and effective data constituting the divided presentation information or header information and divided management information. For the optical disk including the valid data forming the target block, continuous block information after the desired block is read and stored in the primary storage means capable of storing block information for n (n is an integer of several tens or more) blocks. In an optical disk reproducing apparatus provided with an optical disk reading means ,
First secondary storage means and second secondary storage means capable of storing effective data comprising presentation information or management information for m blocks each smaller than n;
Decompression means for inputting valid data of presentation information of compressed music or moving image , decompressing and outputting, and
The optical disk reading means is controlled, and at the time of management information analysis, a plurality of continuous block information including desired management information is read from the optical disk and stored in the primary storage means, while the desired information is stored in the primary storage means. There is no valid data constituting unanalyzed management information among the first secondary storage means and the second secondary storage means for m blocks of valid data constituting the management information in the block information including the management information. When the presentation information is played back, it is stored in the primary storage means while reading a plurality of continuous block information including the desired presentation information from the optical disc, while the desired presentation is stored in the primary storage means. the valid data constituting the presentation station information in the desired block information including information, first two-by m blocks minutes Of the storage means and the second secondary storage means, it is stored in the first secondary storage means or the second secondary storage means at the time of reading / transfer control processing to be transferred to the empty side and management information analysis. Analysis processing for analyzing the effective data constituting the unanalyzed management information to obtain the recording position of the desired presentation information, and the first secondary storage means or the second secondary storage means at the time of reproducing the presentation information. The valid data forming the presentation information stored on one side transferred to the decompression means is output to the decompression means, and when the one side becomes empty, the valid data constituting the presentation information stored on the other side is output to the decompression means is repeated when the side of said other is empty, the control of outputting the valid data forming the presentation information stored in the one side of the previously expansion means A microcomputer for executing a force control process,
An optical disc reproducing apparatus comprising:

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