JP3652494B2 - Reproducing apparatus and recording / reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a reproducing apparatus and a recording / reproducing apparatus that prevent an illegally duplicated plate from being created on a next-generation recording medium having a two-layer structure without performing complicated copy control.
[0002]
[Prior art]
As a conventional digital reproducing apparatus, for example, a CD (Compact Disk) player or the like is widely known. When a digital audio signal reproduced from an original disc by such a digital reproducing apparatus is digitally copied (digital dubbing) by the digital recording apparatus, it is performed based on SCMS (Serial Copy Management System).
[0003]
According to the SCMS, copy information (a bit string related to copy control) in a subcode of a reproduced digital audio signal is demodulated and identified, and a copy is performed from an original disc to a first generation recording medium. Copying cannot be performed with the first generation recording medium as the copy source and the second generation recording medium as the copy destination. That is, the number of copies is limited so that only copying from the original disc to the first generation can be performed.
[0004]
Recently, in relation to the above-mentioned digital copy, so-called next-generation CDs that can achieve higher sound quality and wider bandwidth than current CDs are being commercialized. Such a next-generation CD is recorded with a layer on which a conventional CD format is recorded and a next-generation digital audio signal (1-bit signal) so that it can be reproduced (compatible) with a conventional CD player. And a high-density recording layer.
[0005]
The 1-bit signal is generated by a delta-sigma modulation circuit. Specifically, a digital signal represented by analog or multi-bit is sampled at a high speed and converted into a 1-bit signal. The digital signal represented by the multi-bit means a signal from CD, DAT, BS or the like having a different sampling frequency.
[0006]
For example, when the 1-bit digital signal is an audio signal, the 1-bit digital signal obtained by the delta-sigma modulation can be demodulated into an analog audio signal only by using a simple low-order low-pass filter. Therefore, according to the 1-bit digital signal, it is not necessary to provide a complicated processing circuit for demodulation.
[0007]
A 1-bit digital signal is a finely divided data flow that does not require word synchronization, and therefore is not easily affected by the transmission path and the like. Therefore, it is resistant to errors and does not require an error correction circuit or the like. It becomes.
[0008]
Furthermore, according to the conventional multi-bit digital signal, once the sampling frequency, dynamic range, etc. are standardized, it is difficult to change the standard.
[0009]
On the other hand, there is a digital audio system such as a compact disk as an example of a typical multi-bit encoding system. In this case, 22.05 kHz, which is 1/2 of the sampling frequency of 44.1 kHz, is an audio signal band. Since it is the upper limit frequency and a frequency band higher than this upper limit frequency cannot be used for data transmission, a subcode such as a flag for identifying whether the channel is the left or right channel that is a sub signal is the main signal. Along with main data of a certain audio signal, each is compressed and multiplexed in the time axis direction, and transmitted or recorded / reproduced.
[0010]
Therefore, on the transmission or recording side, a circuit that encodes the flag and the audio signal in a standardized data format is required, while on the reception or reproduction side, the received or reproduced data is decoded and the main data and A circuit that separates into subcodes is required. Thus, according to the multi-bit encoding method, a signal processing circuit that performs signal processing corresponding to the format is required.
[0011]
In view of the above, in recent years, a 1-bit digital encoding system that has many advantages over a multi-bit encoding system has attracted attention.
[0012]
[Problems to be solved by the invention]
However, when digital copy control is performed by SCMS as in the prior art, it is necessary to manipulate and identify copy bits and category codes, which are copy information (bit sequences related to copy control) in subcodes.
[0013]
In addition, it is possible to create an illegally duplicated version by processing the subcode, which leads to a problem relating to copyright.
[0014]
The present invention has been made in view of the above-described conventional problems, and its purpose is to create an illegally duplicated version of a next-generation recording medium having a two-layer structure without performing complicated copy control. Is to prevent.
[0015]
[Means for Solving the Problems]
(1) A recording medium to which the present invention is applied includes a first recording layer and a second recording layer in which the same recording signal is recorded based on different quantization methods or different formats in order to solve the above-described problem. A recording medium having a two-layer structure provided with a reproduction control signal recording unit on which a reproduction control signal indicating that the recording medium has a two-layer structure is recorded.
[0016]
According to the recording medium, since the reproduction control signal recording unit (provided as a common one) in which the reproduction control signal indicating the two-layer structure is recorded is provided, the reproduction control signal is based on the reproduction control signal. Thus, it can be discriminated from a recording medium having a single layer structure. By using this reproduction control signal, it is possible to prevent illegal duplication from being made without complicated copy control.
[0017]
(2) A recording medium to which the present invention is applied, in order to solve the above problems, in the recording medium, the reproduction control signal recording unit is provided for each recording layer, and reproduction control corresponding to each recording layer is performed. Signals are recorded in the respective reproduction control signal recording units.
[0018]
According to the above recording medium, in addition to the operation of the recording medium of (1) above, the reproduction control signal recording unit in which the reproduction control signal is recorded is provided for each recording layer. Based on the reading, the recording medium can be discriminated from the recording medium having a single-layer structure. By using these reproduction control signals, the illegal duplication can be prevented from being made without performing complicated copy control.
[0019]
(3) A recording medium to which the present invention is applied has a first recording layer and a second recording layer in order to solve the above problems, and one bit generated based on delta-sigma modulation in one of these two layers In the recording medium on which the signal is recorded, the 1-bit signal is a 1-bit signal multiplexed with a subcode as a spectrum flag, and information indicating whether the recording medium is an original is the highest range of the spectrum flag. Assigned to the multiplexed flag.
[0020]
According to the above recording medium, it is possible to distinguish between the recording medium having a single layer structure. By using this reproduction control signal, it is possible to prevent illegal duplication from being made without complicated copy control.
[0021]
For example, when the 1-bit digital signal is an audio signal, the 1-bit digital signal obtained by the above delta-sigma modulation can be demodulated into an analog audio signal by using a simple low-order low-pass filter. Therefore, according to the 1-bit digital signal, it is not necessary to provide a complicated processing circuit for demodulation (reproduction).
[0022]
A 1-bit digital signal is a finely divided data flow that does not require word synchronization, and therefore is not easily affected by the transmission path and the like. Therefore, it is resistant to errors and does not require an error correction circuit or the like. It becomes.
[0023]
(4) In order to solve the above-described problem, a playback apparatus according to the present invention includes a playback unit that plays back a recording medium. When a playback signal is received from the playback unit, the loaded recording medium is 1 and a second recording layer, one of the two layers having a 1-bit signal generated based on delta-sigma modulation recorded thereon, wherein the 1-bit signal has a subcode as a spectral flag Whether the recording medium is a multiplexed 1-bit signal and information indicating whether the recording medium is an original or not is assigned to the flag multiplexed in the highest area of the spectrum flag. And detecting means based on the presence or absence of a flag, and detecting whether or not the loaded recording medium is a CD based on a reproduction signal of the reproducing means. That there the lug, or a CD only in the case where it is detected by said detecting means, is characterized by outputting the output of said reproducing means as a digital signal for digital copy.
[0024]
According to the above invention, in addition to the action of the recording medium of (3) above, the loaded recording medium is reproduced by the reproducing means. Upon receiving this reproduction signal, the detecting means detects whether or not the loaded recording medium is the recording medium described in (3) based on the presence or absence of the highest range flag, and the loaded recording medium Whether it is a CD or not is detected based on the reproduction signal of the reproducing means. As a result of this detection, the loaded recording medium is recognized as the original and reproduced only when it is detected that the highest range flag is present, or when the loaded recording medium is a CD. The output of the means is output as a digital signal for digital copy.
[0025]
(5) In order to solve the above-described problem, a playback apparatus according to the present invention includes a playback unit that plays back a recording medium. When a playback signal is received from the playback unit, the loaded recording medium is 1 and a second recording layer, one of the two layers having a 1-bit signal generated based on delta-sigma modulation recorded thereon, wherein the 1-bit signal has a subcode as a spectral flag Whether the recording medium is a multiplexed 1-bit signal and information indicating whether the recording medium is an original or not is assigned to the flag multiplexed in the highest area of the spectrum flag. Detection means for detecting based on the presence or absence of a flag and detecting whether the loaded recording medium is a CD based on a reproduction signal of the reproduction means; Removing means for removing the highest frequency flag from the output of the output signal, and when the presence of the highest frequency flag is detected, the removing means removes the highest frequency flag and uses the digital signal for removing the signal after removal. On the other hand, when it is detected that the loaded recording medium is a CD, the output of the reproducing means is directly output as a digital signal for digital copying.
[0026]
According to the above invention, in addition to the action of the recording medium of (3) above, the loaded recording medium is reproduced by the reproducing means. Upon receiving this reproduction signal, the detecting means detects whether or not the loaded recording medium is the recording medium described in (3) based on the presence or absence of the highest range flag, and the loaded recording medium Whether it is a CD or not is detected based on the reproduction signal of the reproducing means. As a result of this detection, the loaded recording medium is recognized as the original and reproduced only when it is detected that the highest range flag is present, or when the loaded recording medium is a CD. The output of the means is output as a digital signal for digital copy. When it is detected that the highest band flag is present, the highest band flag is removed by the removing unit, and the signal after removal is output as a digital signal for digital copy.
[0027]
(6) In order to solve the above problems, a recording / reproducing apparatus according to the present invention (4) or (5) And a recording apparatus for recording the digital signal for digital copy output from the reproducing apparatus.
[0028]
According to the above invention, the above (4) or (5) In addition to the operation of any one of the reproduction apparatuses, only when the copy source is the original, the digital signal for digital copy output from the reproduction apparatus is recorded in the recording apparatus.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described below with reference to FIG.
[0030]
As shown in FIG. 1, the original disc 1 used in this embodiment has a two-layer structure of a recording layer 1a and a recording layer 1b. The same original signal is recorded on the recording layer 1a and the recording layer 1b based on different quantization methods or different formats. Since the quantization methods or formats are different from each other, the recording layer 1 a is reproduced by the reproducing device 2, while the recording layer 1 b is reproduced by the reproducing device 3.
[0031]
The reproducing devices 2 and 3 are provided with reproducing means (not shown) for performing a reproducing operation on the recording layer 1a and the recording layer 1b, respectively.
[0032]
In the original disc 1, a reproduction control signal recording unit 1c common to the recording layers 1a and 1b is provided, for example, on the recording layer 1a side. A reproduction control signal is recorded in the reproduction control signal recording unit 1c, and based on the reproduction control signal, it can be identified whether or not the original disc 1 has the above two-layer structure. The reproduction control signal is read by both the reproduction apparatuses 2 and 3. The present invention is not limited to this, and the reproduction control signal recording unit 1c may be provided on the recording layer 1b side instead of the recording layer 1a side.
[0033]
The reproducing devices 2 and 3 are connected to recording devices 4 and 5, respectively. That is, the recording device 4 receives a digital signal for digital copy (a signal corresponding to the original signal) sent via a digital output terminal (not shown) of the reproducing device 2 and receives the recording device 4. Recording (copying) is performed on a recording medium such as an MD (Mini Disk) that has already been loaded. Similarly, the recording device 5 receives a digital signal for digital copy sent via a digital output terminal (not shown) of the reproducing device 3 and has already been loaded in the recording device 5. Is recorded (copied).
[0034]
According to the above configuration, when the disc is loaded, the playback device 2 or 3 reads the playback control signal from the playback control signal recording unit 1c via the playback means, and is loaded based on the read playback control signal. Whether the disc has the above two-layer structure is identified. If the loaded disc does not have the two-layer structure, the reproduction control signal is not recorded on such a disc.
[0035]
For example, when the loaded disc is the original disc 1 (0th generation recording medium), the playback device 2 or 3 reads a playback signal from the original disc 1 through the playback means. The reproduction control signal recorded in the reproduction control signal recording unit 1c is included in the reproduction signal and is read through the reproduction means. The reproduction device 2 or 3 is based on the read reproduction control signal. Thus, the original disc 1 is identified as having the above two-layer structure, and a digital signal for digital copy is sent to the recording device 4 or 5 via the digital output terminal. The recording device 4 or 5 records (copies) the input digital copy digital signal on a recording medium such as an MD loaded in the recording device 4 or 5, and the copying to the first generation recording medium is completed. To do.
[0036]
Further, even when the loaded disc is a CD, the playback device 2 or 3 reads a playback signal from the CD via the playback means, identifies the disc as an original disc, and performs the SCMS (Serial Copy Management System). ), A digital signal for digital copying is sent to the recording device 4 or 5 via the digital output terminal. The recording device 4 or 5 records (copies) the input digital copy digital signal on a recording medium such as an MD loaded in the recording device 4 or 5, and the copying to the first generation recording medium is completed. To do. Whether or not the loaded recording medium is the current CD can be identified in the same manner as in the current CD player, and the detailed identification method and configuration will not be described.
[0037]
On the other hand, when the loaded disc is not the original disc 1, the playback device 2 or 3 can read the playback control signal because the playback control signal recording unit 1c is not provided. Therefore, it is identified that the loaded disc does not have the above two-layer structure.
[0038]
That is, the playback device 2 or 3 recognizes that the loaded disc is a disc that has already been copied once (a first generation recording medium) or an illegally copied disc, and outputs a digital signal for digital copy. Does not output to the above digital output terminal. Therefore, the original signal is not copied by the recording device 4 or 5.
[0039]
Further, when the loaded disc does not have the above two-layer structure and is not a CD, the playback device 2 or 3 is a disc (first generation recording medium) on which the loaded disc has already been copied once, Alternatively, the disc is recognized as an illegally copied disc, and a digital signal for digital copy is not output to the digital output terminal.
[0040]
Instead of outputting a digital signal for digital copying, it may be converted into a signal that cannot be recorded by the recording device and output to a digital output terminal, or a signal that prevents digital copying on the receiving side (recording side). It may be output.
[0041]
As described above, in the present embodiment, the original disc 1 having the reproduction control signal recording unit 1c on which the reproduction control signal for identifying whether or not the two-layer structure (recording layers 1a and 1b) is provided is recorded. Alternatively, the reproduction signal is copied to the first generation recording medium only when the CD is reproduced by the reproduction apparatus 2 or 3.
[0042]
Therefore, even if a recording medium having a single-layer structure other than a CD is played back by the playback device 2 or 3, it is recognized as a recording medium that has been copied once, or an illegally copied recording medium. The device 4 or 5 can reliably avoid making illegal copies.
[0043]
In addition, a circuit (a circuit provided on the transmission side or recording side) that encodes the flag or the audio signal in a standardized data format, which is necessary in the conventional multi-bit encoding method, or data that is received or reproduced This eliminates the need for a circuit that decodes and separates the main data and subcode (circuit provided on the receiving side or playback side), a signal processing circuit that performs signal processing according to the format, and the configuration can be greatly simplified. It is possible to reduce the size and price.
[0044]
Here, another embodiment will be described below with reference to FIG.
[0045]
FIG. 2 shows a case where the same original signal is copied on the same original disk 21 using the original disk 21 recorded in two layers by different quantization methods or different formats.
[0046]
The original disc 21 has a two-layer structure of a recording layer 21a and a recording layer 21b. The same original signal is recorded on the recording layer 21a and the recording layer 21b based on different quantization methods or different formats. In the present embodiment, the recording layer 21b has a higher recording density than the recording layer 21a.
[0047]
The recording layers 21 a and 21 b can be reproduced by the reproducing device 23. The playback device 23 according to the present embodiment further outputs a digital signal for CD playback and digital copy to the outside.
[0048]
On the original disc 21, a reproduction control signal recording unit 21c in which a reproduction control signal (reproduction control information) of the recording layer 21a is recorded, and a reproduction in which a reproduction control signal (reproduction control information) of the recording layer 21b is recorded. A control signal recording unit 21d is provided. The playback device 23 is connected to a recording device 25. The playback device 23 includes playback means (not shown) that performs playback operations on the recording medium.
[0049]
The recording device 25 receives a digital signal for digital copy (a signal corresponding to the original signal) sent via a digital output terminal (not shown) of the reproducing device 23 and stores it in the recording device 25. Recording (copying) is performed on a recording medium such as an already loaded MD (Mini Disk).
[0050]
According to the above configuration, when the disc is loaded, the playback device 23 reads the playback control signal via the playback means. At this time, when the reproduction control signal is read from both of the two reproduction control signal recording units 21c and 21d, the disc is recognized as the original disc 21, and the digital signal for digital copy is connected to the digital output terminal. To the recording device 25. The recording device 25 records (copies) the input digital signal for digital copying on a recording medium such as an MD already loaded in the recording device 25, and the copying to the first generation recording medium is completed.
[0051]
The above describes the case where the disc is recognized as an original disc when the playback control signals are read from both of the two playback control signal recording units 21c and 21d, but the present invention is limited to this. Instead, from the viewpoint of accuracy, a configuration (described later) that recognizes that the original disc is loaded when the two playback control signals are the same is preferable.
[0052]
Further, even when the loaded disc is a CD, the playback device 23 reads a playback signal from the CD via the playback means, identifies it as an original disc, and sends it to the SCMS (Serial Copy Management System). Based on this, a digital signal for digital copy is sent to the recording device 25 via the digital output terminal. The recording device 25 records (copies) the input digital signal for digital copying on a recording medium such as an MD loaded in the recording device 25, and the copying to the first generation recording medium is completed.
[0053]
On the other hand, when the reproduction control signal of only one of the two reproduction control signal recording units 21c and 21d is read (when the two reproduction control signals are the same, the original disc is loaded). The disc does not have the above two-layer structure, and therefore is a disc that has been copied once or illegally duplicated). Is identified by the playback device 23. In this case, a digital signal for digital copy is not output to the digital output terminal or is converted into a signal that cannot be recorded by the recording device and output to the digital output terminal. The Therefore, the original signal is not copied by the recording device 25.
[0054]
When the loaded disc does not have the above-mentioned two-layer structure and is not a CD, the playback device 23 may use a disc on which the loaded disc has already been copied (first generation recording medium) or illegally. And the digital signal for digital copy is not output to the digital output terminal.
[0055]
Instead of outputting a digital signal for digital copying, it may be converted into a signal that cannot be recorded by the recording device and output to a digital output terminal, or a signal that prevents digital copying on the receiving side (recording side). It may be output.
[0056]
As described above, the present embodiment recognizes that the original disc is loaded when the reproduction control signals are read from both the recording layers 21a and 21b (when the two reproduction control signals are the same). In the configuration, the playback device 23 recognizes that the loaded recording medium is the original disc only when both playback control signals are the same) or when the loaded recording medium is recognized as a CD. Thus, the reproduction signal is copied to the first generation recording medium. Therefore, when only one of the playback control signals is read (in the configuration where the original disc is loaded when the two playback control signals are the same, both playback control signals are the same. If not, the loaded disc is recognized as a recording medium that has been copied once, or an illegally duplicated recording medium, so that the recording device 25 is sure to make an illegal duplicate. Can be avoided.
[0057]
In addition, a circuit (a circuit provided on the transmission side or recording side) that encodes the flag or the audio signal in a standardized data format, which is necessary in the conventional multi-bit encoding method, or data that is received or reproduced This eliminates the need for a circuit that decodes and separates the main data and subcode (circuit provided on the receiving side or playback side), a signal processing circuit that performs signal processing according to the format, and the configuration can be greatly simplified. It is possible to reduce the size and price.
[0058]
As described above, FIG. 2 shows that the same original signal is recorded on the recording layer 21a and the recording layer 21b on the basis of different quantization methods or different formats, and the recording layer 21b If the recording layer 21a has a higher recording density than the recording layer 21a and the playback control signal is read from both of the two playback control signal recording units 21c and 21d, the disc is recognized as the original disc 21. This is also disclosed. This invention is not limited to this, For example, the following structures may be sufficient as the above-mentioned.
[0059]
That is, it is assumed that the recording layer 21b having a high recording density and the recording layer 21a having a low recording density each have reproduction control information. In this case, the disc is loaded into the playback device 23, the playback means reads the playback control information from both playback control signal recording units 21c and 21d, and the two read playback control information has the same contents. Is confirmed by the reproducing device 23, the loaded disc may be recognized as an original disc.
[0060]
According to the above configuration, when the playback control information of the two playback control signal recording units 21c and 21d has the same content, the disc is recognized as an original disc, and the digital signal for digital copy is the digital signal. It is sent to the recording device 25 via the output terminal. The recording device 25 records (copies) the input digital signal for digital copying on a recording medium such as an MD already loaded in the recording device 25, and the copying to the first generation recording medium is completed.
[0061]
On the other hand, when the playback control information of the two playback control signal recording units 21c and 21d is not the same content, the playback device 23 indicates that a disc that has been copied once or an illegally copied disc has been loaded. Identified by. In this case, a digital signal for digital copy is not output to the digital output terminal or is converted into a signal that cannot be recorded by the recording apparatus and output to the digital output terminal. Therefore, the original signal is not copied by the recording device 25.
[0062]
That is, only when the playback control signals from both recording layers 21a and 21b have the same content, the playback device 23 recognizes the original disc and copies the playback signal to the first generation recording medium. Therefore, if the playback control signals from both the above are not the same content, the loaded disc is recognized as a recording medium that has been copied once, or an illegally copied recording medium. Can definitely avoid making illegal copies.
[0063]
In addition, a circuit (a circuit provided on the transmission side or recording side) that encodes the flag or the audio signal in a standardized data format, which is necessary in the conventional multi-bit encoding method, or data that is received or reproduced This eliminates the need for a circuit that decodes and separates the main data and subcode (circuit provided on the receiving side or playback side), a signal processing circuit that performs signal processing according to the format, and the configuration can be greatly simplified. It is possible to reduce the size and price.
[0064]
As described above, even when the recording medium has a simple two-layer structure, each layer is provided with reproduction control information and loaded by determining the identity of the contents of these two reproduction control information. It is possible to determine whether the recording medium is original.
[0065]
Here, still another embodiment according to the present invention will be described below with reference to FIG.
[0066]
In the present embodiment, a recording medium (original disc) having a two-layer structure of a layer (low density recording layer) in which the current CD format is recorded and a high density recording layer (none of which is shown) in which a 1-bit signal is recorded. The case where 31) is used will be described.
[0067]
The 1-bit signal to be recorded on the high-density recording layer is a 1-bit signal obtained by multiplexing the subcode as a spectrum flag as shown in the previous application (Japanese Patent Application No. 8-343746) of the present applicant. Then, the highest flag of the spectrum flag is assigned as copy information or source information.
[0068]
That is, the 1-bit signal is obtained by delta-sigma modulation, and even if the frequency band is equal to or higher than the upper limit frequency set to, for example, about several times the effective frequency band that can ensure the predetermined dynamic range of the main signal, A low bit rate sub-signal corresponding to a narrow dynamic range up to the quantization noise floor can sufficiently secure a predetermined S / N necessary for demodulation. This is because the quantization noise floor rises gradually as the frequency increases, so a wide noise reduction band can be secured above the audio signal band, and this band can be sufficiently decoded for minute bit data. It is because it will have S / N. Using this band, subcodes (subsignals) are multiplexed by frequency division and delta-sigma modulation is performed to generate 1-bit digital.
[0069]
Therefore, when a sub-signal having an information amount corresponding to the dynamic range at the predetermined frequency above the upper limit frequency is superimposed by frequency division multiplexing, the sub-signal is demodulated by a band-pass filter or the like on the demodulation side such as a playback device. It is only necessary to separate and perform demodulation processing corresponding to the sub-signal, and a configuration that is necessary when performing time-division multiplexing as in the prior art becomes unnecessary, and a circuit for signal processing can be simplified.
[0070]
In the present embodiment, a 1-bit signal in which a subcode is multiplexed as a spectrum flag as described above is used. Then, among the spectrum flags, a flag multiplexed in the highest region (highest region flag) is assigned as copy information or source information. The presence or absence of the highest range flag corresponds to whether or not the disc loaded in the reproducing apparatus is the recording medium having a two-layer structure. That is, if the highest zone flag is present, it means that the loaded disc is the original disc having the above-mentioned two-layer structure, and if there is no highest zone flag, the loaded disc is recorded on the above-mentioned two-layer structure. It means not a medium or a CD.
[0071]
The above describes the configuration for identifying whether or not the loaded disc is the above-mentioned two-layer recording medium based on the presence or absence of the highest range flag of the 1-bit signal. A configuration may be adopted in which a reproduction control signal indicating that the disc is an original disc having a two-layer structure is recorded on the high-density recording layer, and whether the disc is an original disc or not is determined based on the reproduction control signal. Further, a highly reliable configuration in which both the reproduction control signal and the above-mentioned highest range flag are recorded on the above-described high-density recording layer may be employed.
[0072]
Here, a case where a signal recorded on the high-density recording layer is reproduced, a reproduced 1-bit digital signal is output, and digital dubbing is performed will be described.
[0073]
As shown in FIG. 3, the reproducing apparatus of the present embodiment mainly includes a signal reading unit 32 (reproducing means) that performs a reading operation on a loaded disc, and a spectrum flag from the read signal (reproduced signal). And a spectrum flag reading unit 33 that outputs a switching control signal according to the presence / absence of the highest region flag or whether or not the loaded disc is a CD, and the signal reading unit 32. The low-pass filter (LPF) 34 that passes only the signal in the low frequency region of the signal and the signal depending on whether the signal reading unit 32 is reproducing from the low-density recording layer or the high-density recording layer. The output of the reading unit 32 is output as a digital signal as it is, or the output of the low-pass filter 34 is converted into a digital signal. A switch 36 for switching whether to output, and a switch 35 for switching whether an output of the switch 36 or the digital output, or outputs a ground level based on the switching control signal.
[0074]
For example, the spectrum flag reading unit 33 sends a high level to the switch 35 as the switching control signal when the highest band flag is present and a low level when the highest band flag is absent. In the switch 36, when the signal reading unit 32 reproduces the low density recording layer, the contact 36c and the contact 36b are electrically connected, and the output of the signal reading unit 32 connects the contacts 35a and 35c. On the other hand, when the signal reading unit 32 reproduces the high-density recording layer, the contact 36c and the contact 36a are electrically connected, and the output of the low-pass filter 34 is It is output as a digital signal via the contacts 35a and 35c. When the switch 35 receives a high level signal, the contact 35c and the contact 35a are electrically connected and the output of the switch 36 is digitally output. When the switch 35 receives a low level signal, the contact 35c and the contact 35a are contacted. 35b is electrically connected and the ground level is digitally output. In the case of a 1-bit digital signal, the low-pass filter 34 removes the highest frequency region flag in the high frequency region from the signal read by the signal reading unit 32. Therefore, the output of the low-pass filter 34 does not include the highest frequency flag.
[0075]
According to the above configuration, as shown in FIG. 3, the 1-bit digital signal recorded on the high-density recording layer is reproduced by the signal reading unit 32, and the reproduction signal is sent to the spectrum flag reading unit 33 and the low-pass filter 34. It is done. In the spectrum flag reading unit 33, the spectrum flag is separated and read by a bandpass filter (not shown) or the like, and the presence / absence of the highest band flag of the read spectrum flag is recognized. While the switching control signal is sent to the switch 35, the low-level switching control signal is sent to the switch 35 when there is no switching control signal.
[0076]
When the high-density recording layer is being reproduced and the highest zone flag is present, the contact 36a and the contact 36c are electrically connected and the contact 35c and the contact 35a are electrically connected. Therefore, the output of the low-pass filter 34 is sent as a 1-bit digital signal for digital copying to a recording device (not shown) via a digital output terminal (not shown). In this recording apparatus, the input 1-bit digital signal for digital copying is copied to a recording medium such as MD loaded in advance.
[0077]
When the loaded disc is a CD, the low-density recording layer is reproduced, so that the contact 36c and the contact 36b of the switch 36 are electrically connected and the contact 35c and the contact of the switch 35 are connected. 35a is electrically connected. As a result, a reproduction signal is read from the CD via the signal reading unit 32 (reproduction means), identified as an original disc, and a digital signal for digital copy is based on the SCMS (Serial Copy Management System). Is directly output to the outside through the digital output terminal. On the receiving side of the digital signal for digital copying (for example, a recording apparatus loaded with a recording medium such as MD), the input digital signal for digital copying is recorded on the recording medium such as MD loaded therein ( Copy) and copying to the first generation recording medium is completed.
[0078]
On the other hand, when there is no highest range flag or when the loaded recording medium is not a CD, the contact 35c and the contact 35b are electrically connected, so that the ground level is set via the digital output terminal. Sent to the recording device. FIG. 3 shows an example in which the ground level is sent to the recording device via the digital output terminal when there is no highest range flag. However, the present invention is not limited to this, and As in the embodiment, a 1-bit digital signal for digital copy may be prevented from being output to a digital output terminal (not shown), or may be converted into a signal that cannot be recorded by a recording device and output to the digital output terminal. Alternatively, a signal that prevents digital copying on the receiving side (recording side) may be output.
[0079]
As described above, according to the present embodiment, digital copying from the first generation recording medium to the second generation recording medium is not performed.
[0080]
When there is the highest range flag, the digital copy 1-bit digital signal is digitally output, and the output 1-bit digital signal is digitally copied by the recording device. However, the digitally copied 1-bit digital signal has the highest range flag. Has been removed. However, since the highest band flag exists at a frequency value considerably higher than the audible band, even if a band higher than the audible band is removed, there is no problem in reproducing an analog signal. Of course, the low-pass filter 34 may not be provided (the highest-frequency flag is still included), and the digital signal may be output directly. Even in this case, since the highest band flag exists at a frequency value considerably higher than the audible band, there is no substantial influence upon reproduction.
[0081]
On the other hand, when the CD is not loaded and there is no highest range flag, it is recognized as the first generation recording medium copied from the original disc, and the digital signal for digital copy is output to the output terminal. Is not output.
[0082]
Therefore, even if the first generation recording medium is played back, it is recognized that the recording medium is copied once or illegally duplicated, so that the recording apparatus creates an illegally copied version. Can be avoided reliably.
[0083]
In addition, a circuit (a circuit provided on the transmission side or recording side) that encodes the flag or the audio signal in a standardized data format, which is necessary in the conventional multi-bit encoding method, or data that is received or reproduced This eliminates the need for a circuit that decodes and separates the main data and subcode (circuit provided on the receiving side or playback side), a signal processing circuit that performs signal processing according to the format, and the configuration can be greatly simplified. It is possible to reduce the size and price.
[0084]
The above describes the case where the playback device and the recording device are provided separately, but the present invention is not limited to this, and the recording device is a recording and playback device in which the playback device and the recording device are integrated. May be.
[0085]
Further, the above describes the case where the playback apparatus can play back both the next-generation recording medium and the current CD. However, the present invention is not limited to this, and the playback is dedicated to the next-generation recording medium. It may be a device.
[0086]
In addition, this invention is not limited to said embodiment, A various change is possible within the scope of the present invention.
[0087]
【The invention's effect】
(1) As described above, the recording medium applied to the present invention has a configuration including a reproduction control signal recording unit in which a reproduction control signal indicating that the recording medium has a two-layer structure is recorded. .
[0088]
Therefore, it is possible to discriminate between a recording medium having a single-layer structure with a simple configuration in which a reproduction control signal recording unit in which a reproduction control signal indicating a two-layer structure is recorded is provided. By using this reproduction control signal, there is also an effect that illegal duplication can be prevented from occurring without performing complicated copy control.
[0089]
(2) The recording medium applied to the present invention is as described above. In the recording medium, the reproduction control signal recording unit is provided for each recording layer, and the reproduction control signal corresponding to each recording layer is provided. The reproduction control signal recording unit is configured to be recorded.
[0090]
Therefore, similarly to the effect of the above recording medium, a simple configuration of providing a reproduction control signal recording unit in which a reproduction control signal indicating that the recording medium has a two-layer structure is provided, and a single-layer structure recording medium is provided. Can be identified. By using this reproduction control signal, there is also an effect that illegal duplication can be prevented from occurring without performing complicated copy control.
[0091]
(3) In the recording medium applied to the present invention, as described above, the 1-bit signal is a 1-bit signal multiplexed with the subcode as a spectrum flag, and indicates whether the recording medium is an original. The information is assigned to a flag multiplexed in the highest region of the spectrum flag.
[0092]
Therefore, it can be distinguished from a recording medium having a single-layer structure. By using this reproduction control signal, illegal duplication can be prevented from being made without performing complicated copy control.
[0093]
Further, the 1-bit digital signal obtained by the delta-sigma modulation can be demodulated into an analog audio signal by using a simple low-order low-pass filter, for example, when the 1-bit digital signal is an audio signal. Therefore, according to the 1-bit digital signal, it is not necessary to provide a complicated processing circuit for demodulation (reproduction).
[0094]
A 1-bit digital signal is a finely divided data flow that does not require word synchronization, and therefore is not easily affected by a transmission path and the like. Therefore, it is resistant to errors and does not require an error correction circuit or the like. It also has the effect of becoming.
[0095]
(4) As described above, when the reproducing apparatus according to the present invention receives a reproduction signal from the reproducing means, whether the loaded recording medium is the recording medium described in (3) or not is determined based on the presence or absence of the highest region flag. And detecting means for detecting whether or not the loaded recording medium is a CD based on a reproduction signal of the reproducing means, and detecting that the highest zone flag is present or that it is a CD. Only when it is detected by the means, the output of the reproducing means is output as a digital signal for digital copy.
[0096]
Therefore, in addition to the effect of the recording medium of (3), it is possible to reproduce the current CD and output a digital signal for digital copy. In particular, when the recording medium (3) is loaded, copy bits and category codes, which are copy information (a bit string related to copy control) in a subcode, which is necessary when performing digital copy control by SCMS as in the past. It becomes unnecessary to perform the operation and identification. Further, it is impossible to create an illegal copy version even if subcode processing is performed, and it is also possible to reliably avoid the development of a copyright problem.
[0097]
(5) As described above, when the reproduction apparatus according to the present invention receives a reproduction signal from the reproduction means, it determines whether or not the loaded recording medium is the recording medium described in (3) based on the presence or absence of the highest range flag. Detecting means for detecting whether or not the loaded recording medium is a CD based on the reproduction signal of the reproducing means, and removing means for removing the highest band flag from the output of the reproducing means The removal means removes the highest-frequency flag when it is detected that the highest-frequency flag is present, and outputs the signal after removal as a digital signal for digital copying. When a CD is detected, the output of the reproducing means is directly output as a digital signal for digital copy.
[0098]
Therefore, in addition to the effect of the recording medium of (3), it is possible to reproduce the current CD and output a digital signal for digital copy. In particular, when loading the recording medium of (3) above, it is possible to prevent the highest frequency flag from being included in the reproduction signal, and it is necessary to perform sub-copying required when performing digital copy control by SCMS as in the prior art. It is not necessary to operate and identify copy bits and category codes that are copy information (bit strings related to copy control) in the code. Further, it is impossible to create an illegal copy version even if subcode processing is performed, and it is also possible to reliably avoid the development of a copyright problem.
[0099]
(6) As described above, the recording / reproducing apparatus according to the present invention is configured as described above. (4) or (5) And a recording apparatus for recording the digital signal for digital copy output from the reproducing apparatus.
[0100]
Therefore, the above (4) or (5) In addition to the effect of any one of the reproduction apparatuses, only the digital copy from the original to the first generation recording medium is performed, and the effect that the illegally created duplicate version can be surely prevented is also exhibited.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram for explaining a recording medium applied to the present invention and a configuration for making a digital copy of the recording medium.
FIG. 2 is an explanatory diagram for explaining another recording medium applied to the present invention and a configuration for making a digital copy of the recording medium.
FIG. 3 is an explanatory diagram for explaining still another recording medium applied to the present invention and a configuration for taking a digital copy of the recording medium.
[Explanation of symbols]
1 Original disc (recording medium)
1a Recording layer
1b Recording layer
1c Playback control signal recording unit
2 Playback device
3 Playback device
4 Recording device
5 recording devices
21 Original disc (recording medium)
21a Recording layer
21b Recording layer
21c Playback control signal recording unit
21d Playback control signal recording unit
23 Playback device
25 Recording device
31 Original disc (recording medium)
32 Signal reading unit (reproducing means)
33 Spectrum flag reading unit (detection means)
34 Low-pass filter (removal means)
35 switch

Claims (3)

A playback device comprising playback means for playing back a recording medium,
When the reproduction signal is received from the reproduction means, the loaded recording medium is
A recording medium having a first recording layer and a second recording layer, wherein one of the two layers is recorded with a 1-bit signal generated based on delta-sigma modulation;
The 1-bit signal is a 1-bit signal in which a subcode is multiplexed as a spectrum flag, and information indicating whether or not the recording medium is original is assigned to a flag multiplexed in the highest range of the spectrum flag. Detecting means for detecting whether or not the recording medium is based on the presence or absence of the highest range flag, and detecting whether or not the loaded recording medium is a CD based on a reproduction signal of the reproducing means;
A reproducing apparatus for outputting the output of the reproducing means as a digital signal for digital copy only when the detecting means detects that the highest zone flag is present or a CD is detected. A playback device comprising playback means for playing back a recording medium,
When the reproduction signal is received from the reproduction means, the loaded recording medium is
A recording medium having a first recording layer and a second recording layer, wherein one of the two layers is recorded with a 1-bit signal generated based on delta-sigma modulation;
The 1-bit signal is a 1-bit signal in which a subcode is multiplexed as a spectrum flag, and information indicating whether or not the recording medium is original is assigned to a flag multiplexed in the highest range of the spectrum flag. Detecting means for detecting whether or not the recording medium is based on the presence or absence of the highest range flag, and detecting whether or not the loaded recording medium is a CD based on a reproduction signal of the reproducing means;
Removing means for removing the highest range flag from the output of the reproducing means,
When it is detected that the highest band flag is present, the removing means removes the highest band flag and outputs the removed signal as a digital signal for digital copying, while the loaded recording medium is a CD. A reproduction apparatus for outputting the output of the reproduction means as it is as a digital signal for digital copy. 3. A recording / reproducing apparatus comprising: the reproducing apparatus according to claim 1; and a recording apparatus for recording the digital signal for digital copying output from the reproducing apparatus.

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