JP4368054B2 - Audio signal recording apparatus and audio signal recording / reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an audio signal recording apparatus and audio signal recording / reproducing apparatus for recording / reproducing an audio signal, and more particularly to an audio signal recording apparatus and an audio signal recording / reproducing apparatus having a sound field control function.
[0002]
[Prior art]
2. Description of the Related Art In recent years, an audio signal recording / reproducing apparatus including a DSP (Digital Signal Processor) that performs signal processing of an audio signal that has been digitally converted for sound field control has been provided. In such an audio signal recording / reproducing apparatus, when reproducing a recording medium such as an optical disk or a magneto-optical disk on which an audio signal is recorded, the read audio signal is signal-processed by a DSP, so that the audio in the sound field desired by the listener is obtained. Can be simulated. Further, as disclosed in JP-A-2-223229 and the like, the read sound signal is processed by the DSP based on the information about the sound field of the environment preferable for reproduction stored together with the sound signal in the recording medium. By doing so, it is possible to simulate and output the sound of the sound field in an environment preferable for reproduction.
[0003]
[Problems to be solved by the invention]
However, in the conventional audio signal recording / reproducing apparatus, when the audio signal is recorded on the recording medium, the audio signal subjected to the signal processing by the DSP is not recorded on the recording medium. Therefore, a stereo or monaural audio signal not subjected to signal processing in the DSP is recorded on the recording medium together with sound field information at the time of reproduction. Therefore, when reproducing an audio signal recorded on such a recording medium based on the similarly recorded sound field information, it is necessary to perform signal processing in the DSP in order to control the sound field. When signal processing by the DSP is performed in this way, the amount of processing is large, so that power consumption increases.
[0004]
Further, even if an audio signal that has been subjected to signal processing by the DSP is recorded on a recording medium, in the conventional audio signal recording / reproducing apparatus, the audio signal read from the recording medium is processed by the DSP. It is not possible to identify whether it has been applied. Therefore, the audio signal read from the recording medium is again subjected to signal processing by the DSP and the sound field control is performed, so that the quality of the reproduced music is deteriorated.
[0005]
In view of such problems, the present invention provides a recording medium with an identification code for identifying whether or not the recorded audio signal is subjected to sound field control, together with the audio signal subjected to sound field control. It is an object of the present invention to provide an audio signal recording apparatus and an audio signal recording / reproducing apparatus for recording in In addition, the present invention provides an audio signal recording / reproducing device that reproduces a sound signal without performing sound field control when it recognizes that the sound signal read from the recording medium is a sound signal subjected to sound field control by the identification code. The other purpose is to provide.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the audio signal recording apparatus of the present invention provides: A sound signal corresponding to a desired sound field is generated in a pseudo manner by performing sound field control. In an audio signal recording apparatus having an audio field control signal processing unit and recording an audio signal to a recording medium, the audio signal input from the outside and the sound field control signal processing unit after being input from the outside Select a sound signal with sound field control in Signal selector When, The signal selector A recording unit that records the audio signal selected in step S1 on the recording medium and generates a recording mode identification code indicating whether or not the recorded audio signal is subjected to sound field control; , And when the recording unit records the audio signal on the recording medium, the audio signal is recorded in a data area of the recording medium, and is an information management area that is different from the data area in the recording trading The recording mode identification code is recorded together with information for managing the audio signal recorded in the data area. It is characterized by that.
[0007]
In such an audio signal recording apparatus, an audio signal that is artificially converted into sound quality in a sound field desired by the user is generated by the sound field control signal processing unit. When the sound signal subjected to the sound field control is recorded on the recording medium, a recording mode identification code indicating whether or not the sound field control is performed is recorded together. Therefore, when this recording medium is reproduced by the audio signal reproduction device, it can be determined whether or not the sound field control is performed by the recording mode identification code, and the sound signal reproduction device performs the sound field control again. Can be prevented.
[0008]
The audio signal recording / reproducing apparatus of the present invention is A sound signal corresponding to a desired sound field is generated in a pseudo manner by performing sound field control. In an audio signal recording / reproducing apparatus having a sound field control signal processing unit and recording and reproducing an audio signal to / from a recording medium, the audio signal input from the outside, and the sound field control after being input from the outside Select a sound signal whose sound field is controlled in the signal processor Signal selector And the Signal selector A recording unit that records the audio signal selected in step S1 on the recording medium and generates a recording mode identification code indicating whether or not the recorded audio signal is subjected to sound field control; , Selected by the signal selector Recognizing whether or not the sound signal read from the recording medium has been subjected to sound field control, from the reproduction unit that reproduces the audio signal and outputs it to the outside, and the recording mode identification code read from the recording medium, When recognizing that the sound signal is sound field-controlled, the sound signal read from the recording medium is By the signal selector A control unit that directly sends out to the reproduction unit and prohibits the sound field control by the sound field control signal processing unit; And when the recording unit records the audio signal on the recording medium, the audio signal is recorded in a data area of the recording medium, and is an information management area that is different from the data area in the recording trading Recording the recording mode identification code together with information for managing the audio signal recorded in the data area It is characterized by that.
[0009]
In such an audio signal recording / reproducing apparatus, an audio signal converted into sound quality in a sound field desired by a user is generated by a sound field control signal processing unit. When the sound signal subjected to the sound field control is recorded on the recording medium, a recording mode identification code indicating whether or not the sound field control is performed is recorded together. Then, when reproducing the recording medium again, when it is confirmed that the sound field control is performed by the recording mode identification code, the control unit performs the sound field control again by the sound field control signal processing unit. Prohibit.
[0010]
In addition, when the control unit recognizes that the audio signal read from the recording medium is not subjected to the sound field control, and the audio signal read from the recording medium is requested to perform the sound field control. A signal may be applied to the sound field control signal processing unit to perform sound field control, and then provided to the reproduction unit and output to the outside.
[0011]
Thus, when reproducing the recording medium again, when it is confirmed that the sound field control is not performed by the recording mode identification code, the user is not instructed to perform the sound field control. When the sound field control signal processing unit can prohibit the control unit from performing the sound field control, and when the user instructs to perform the sound field control, the sound field control signal processing unit The control unit can permit the sound field control.
[0012]
Further, the recording mode identification code generated in the above-described audio signal recording apparatus and audio signal recording / reproducing apparatus represents a sound field whose sound field is controlled when the sound signal whose sound field is controlled is recorded on the recording medium. Information may be included.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below.
[0014]
<Configuration of audio signal recording / reproducing apparatus>
First, the configuration of the audio signal recording / reproducing apparatus of the present embodiment will be described with reference to the drawings. FIG. 1 is a block diagram showing the internal configuration of the audio signal recording / reproducing apparatus of this embodiment. In FIG. 1, the audio signals exchanged between the blocks are the L signal and the R signal that become the audio signals for the L channel and the R channel.
[0015]
The audio signal recording / reproducing apparatus shown in FIG. 1 has an input terminal Din to which an audio signal converted into a digital signal is input from the outside, an input terminal Ain to which an audio signal of an analog signal is input from the outside, and an audio of the analog signal An output terminal out for outputting a signal, an amplifier 1a for amplifying an audio signal input from the input terminal Ain, an amplifier 1b for amplifying an audio signal input from the input terminal Din, and an audio signal amplified by the amplifier 1a A / D converter 2 for converting into a digital signal, a selection switch 3 for selecting any one of the audio signal amplified by the amplifier 1b and the audio signal converted into a digital signal by the A / D converter 2, and a selection switch DSP 4 that performs sound field control on the sound signal selected in 3, or one of the sound signal selected by the selection switch 3 and the sound signal subjected to sound field control in the DSP 4 A selection switch 5 for selecting the data direction, a data compression unit 6 for performing data compression on the audio signal selected by the selection switch 5 by an ATRAC (Adaptive Transform Acoustic Coding) method, and an audio signal compressed by the data compression unit 6 The write control unit 7 that performs write control on the magneto-optical disk 17 by the head unit 8 and the head unit 8 constituted by an optical pickup or a magnetic head are provided.
[0016]
By configuring each block in this way, an analog audio signal input from an analog audio device such as an audio input device or a record player via the input terminal Ain is amplified by the amplifier 1a, and then A / D It is converted into a digital signal by the converter 2 and given to the selection switch 3. In addition, a digital signal input from a digital audio device such as an optical disk playback device via the input terminal Din is amplified by the amplifier 1b and directly supplied to the selection switch 3. The selection circuit 3 also receives a transfer bit clock and an L / R channel identification signal.
[0017]
Then, the selection circuit 3 selects either the audio signal supplied from the amplifier 1b or the audio signal supplied from the A / D converter 2, and the DSP 4 and the selection switch together with the transfer bit clock and the L / R channel identification signal. Send to 5. Incidentally, a transfer bit clock and an L / R channel identification signal are given to each block subsequent to the DSP 4 together with the audio signal of the digital signal. The DSP 4 performs sound field control by performing signal processing on the audio signal of the digital signal selected by the selection switch 3.
[0018]
An example of the configuration of the DSP 4 is shown in FIG. The DSP 4 in FIG. 2 sends out 7168-stage FIR (Finite Impulse Response) filters 41a and 41b that filter the L signal, 7168-stage FIR filters 41c and 41d that filter the R signal, and FIR filters 41a and 41d. An adder circuit 42a for newly generating an L signal by adding the signals to be added, and an adder circuit 42b for newly generating an R signal by adding the signals transmitted from the FIR filters 41b and 41c.
[0019]
Note that the FIR filters 41a to 41d have different multiplication coefficients, and are obtained by experiments in order to obtain a surround effect more in consideration of characteristics such as reflected sound components of the room. Further, as the multiplication coefficients of the FIR filters 41a to 41d, values corresponding to a plurality of sound fields are stored in a ROM (Read Only Memory) (not shown), and values corresponding to the sound fields selected by the user are set. Is set.
[0020]
That is, when the L signal and the R signal are given from the selection circuit 3, the L signal is first filtered in the FIR filters 41a and 41b, and the R signal is filtered in the FIR filters 41c and 41d. Then, the L signal and the R signal filtered by the FIR filters 41a and 41d are added by the adding circuit 42a to generate a new L signal, and the FIR filters 41b and 41c perform the filtering. The added L signal and R signal are added by the adder circuit 42b to generate a new R signal.
[0021]
In this way, the audio signal of the digital signal subjected to the sound field control by the DSP 4 is sent to the selection switch 5. In the selection switch 5, a digital signal audio signal that is directly applied from the selection switch 3 and is not subjected to sound field control and a digital signal sound signal that is subjected to sound field control in the DSP 4 are applied. Select and send to the data compression unit 6.
[0022]
The data compression unit 6 performs ATRAC data compression processing using MDCT (Modified Discrete Cosine Transform). That is, the data compression unit 6 performs data compression by selectively removing only data that cannot be identified by humans based on human auditory characteristics. When the audio signal of the digital signal compressed by the data compression unit 6 is given to the write control unit 7, the head unit 8 is driven by the write control unit 7 and recording on the magneto-optical disk 17 is performed.
[0023]
At this time, assuming that the surface of the magneto-optical disk 17 is a surface to which laser light is applied by an optical pickup, the head unit 8 is installed so that the magnetic head is in contact with the back surface of the magneto-optical disk 17, and the optical pickup is a write control unit. 7 is operated so as to irradiate the surface of the magneto-optical disk 17 with a laser beam in accordance with an audio signal given to 7. By doing so, the portion of the magneto-optical disk 17 where the audio signal data is recorded is magnetized by the laser beam emitted from the optical pickup and the magnetic field emitted from the magnetic head, thereby recording the audio signal. .
[0024]
The audio signal recording / reproducing apparatus shown in FIG. 1 controls the head unit 8 to read out a compressed audio signal from the magneto-optical disk 17, and reads out the audio signal read out by the read control unit 9 from the ATRAC. A data expansion unit 10 that performs data expansion in accordance with a method, a selection switch 11 that selects one of the audio signal expanded by the data expansion unit 10 and the audio signal subjected to sound field control by the DSP 4; A D / A converter 12 that converts an audio signal selected by the switch 11 into an analog signal, and an amplifier 13 that amplifies the audio signal converted into the analog signal by the D / A converter 12 are provided.
[0025]
By configuring each block in this way, the read control unit 9 operates the optical pickup of the head unit 8 to read the audio signal recorded on the magneto-optical disk 17. That is, the laser beam emitted from the optical pickup reflects on the track for reading. Then, the recorded audio signal is read by reading the polarization plane of the reflected light on the magneto-optical disk 17.
[0026]
In this way, the data decompression unit 10 performs data decompression so that the audio signal that is a digital signal read by the readout control unit 9 becomes the audio signal of the original digital signal by the data decompression unit 10. The audio signal of the digital signal generated by performing the data expansion in this way is given to the DSP 4 or the selection switch 11. In the DSP 4, the sound field control as described above is performed on the audio signal of the digital signal, and the sound signal subjected to the sound field control is sent to the selection switch 11.
[0027]
The selection switch 11 receives a digital audio signal directly supplied from the data decompression unit 10 and a digital signal audio signal subjected to sound field control by the DSP 4, and selects either one of the D / A converter. 12 to send. Then, in the D / A converter 12, when the audio signal of the digital signal supplied from the selection switch 11 is converted into an analog signal, the audio signal of the analog signal is amplified by the amplifier 13, and then is connected to the speaker or the like via the output terminal out. It is output to an audio output device such as headphones.
[0028]
Further, the audio signal recording / reproducing apparatus of FIG. 1 includes a CPU (Central Processing Unit) 14 for controlling each block, a key input unit 15 for a listener to perform an input operation, and a UTOC (User Track) of the magneto-optical disk 17. A UTOC area display unit 16 for displaying the UTOC information stored in the Of Content area.
[0029]
By configuring each block in this way, when the UTOC information stored in the UTOC area of the magneto-optical disk 17 is read by the head unit 8 and the read control unit 9, it is given to the CPU 14 to perform data analysis of the UTOC information. Is called. Then, the CPU 14 analyzes the UTOC information to recognize the title of the music currently being played, the recording mode when it was recorded, and the like, and displays it on the UTOC area display unit 16.
[0030]
When the key input unit 15 is operated to input a recording operation, the CPU 14 controls the data compression unit 6 and the write control unit 7 to operate. Then, the CPU 14 selects the audio signal from the amplifier 1b when the audio signal input from the outside is a digital signal, and selects the audio signal from the A / D converter 2 when the audio signal input from the outside is an analog signal. The selection operation of the selection switch 3 is controlled so as to select an audio signal.
[0031]
Further, the CPU 14 controls the selection operation of the selection switch 5 so that an audio signal directly supplied from the selection switch 3 is selected when the key input unit 15 inputs the sound to be recorded in stereo. On the contrary, when an audio signal whose sound field is controlled by the key input unit 15 is input to be recorded, the CPU 14 controls the DSP 4 so that the sound field control according to the sound field desired by the user is performed. At the same time, the selection operation of the selection switch 5 is controlled so that the audio signal supplied from the DSP 4 is selected.
[0032]
When the key input unit 15 is operated to input a reproduction operation, the CPU 14 controls the read control unit 9 and the data decompression unit 10 to operate. When the CPU 14 recognizes that the sound signal reproduced from the UTOC information is controlled by the sound field, the CPU 14 selects the sound signal directly given from the data decompression unit 10, and the sound signal reproduced from the UTOC information is a sound signal. When it is recognized that the field control is not performed, the selection operation of the selection switch 11 is controlled so as to select the audio signal supplied from the DSP 4 or the data decompression unit 10 according to the input to the key input unit 15.
[0033]
Further, when it is recognized that the sound signal reproduced from the UTOC information is not controlled by the sound field, when the sound signal controlled by the key input unit 15 is input to be reproduced, the CPU 14 The DSP 4 is controlled so that the sound field control corresponding to the desired sound field is performed.
[0034]
<Recording operation>
The recording operation of the audio recording / reproducing apparatus configured as described above will be described with reference to the flowchart of FIG.
[0035]
When the key input unit 15 inputs a recording operation, the CPU 14 controls the selection switch 3 as described above according to whether the input audio signal is an analog signal or a digital signal. In this embodiment, the following three types of sound fields are used, and the recording mode when stereo recording is instructed is referred to as a stereo mode.
1. Sound field effect in a small room SH0 mode
2. Studio sound field effect SH1 mode
3. Stadium sound field effect SH2 mode
[0036]
Then, the audio signal of the digital signal selected by the selection switch 3 is sent to the DSP 4 and the selection switch 5. At this time, first, the CPU 14 determines whether or not the user has operated the key input unit 15 to instruct the sound field control (STEP 1). When instructed to perform sound field control (Yes), after the CPU 14 performs a control operation so that the selection switch 5 selects a sound signal given from the DSP 4 (STEP 2), the sound field in the SH0 mode is selected. It is determined whether or not an instruction to perform control is given (STEP 3). Further, when it is instructed not to perform the sound field control (No), the CPU 14 performs the control operation so that the selection switch 5 selects the audio signal directly given from the selection switch 3 in order to perform the recording in the stereo mode. (STEP 5).
[0037]
When it is instructed in STEP 3 to perform sound field control in a mode other than the SH0 mode (No), it is determined whether or not it has been instructed to perform sound field control in the SH1 mode (STEP 4). Further, when it is instructed to perform sound field control in the SH0 mode in STEP 3 (Yes), the DSP 14 is controlled by the CPU 14 to perform sound field control in the SH0 mode (STEP 6). That is, the CPU 14 controls so that the multiplication coefficients of the FIR filters 41a to 41d in the DSP 4 are set to the multiplication coefficients for the SH0 mode stored in the ROM (not shown).
[0038]
When shifting from STEP3 to STEP4, when it is instructed to perform sound field control in the SH1 mode (Yes), the DSP 14 is controlled by the CPU 14 to perform sound field control in the SH1 mode (STEP7). That is, the CPU 14 controls so that the multiplication coefficients of the FIR filters 41a to 41d in the DSP 4 are set to the multiplication coefficients for the SH1 mode stored in the ROM (not shown). In STEP 4, when it is instructed to perform sound field control in the SH2 mode (No), the DSP 14 is controlled by the CPU 14 to perform sound field control in the SH2 mode (STEP 8). That is, the CPU 14 controls so that the multiplication coefficients of the FIR filters 41a to 41d in the DSP 4 are set to the multiplication coefficients for the SH2 mode stored in the ROM (not shown).
[0039]
Then, when shifting from STEP 5 to STEP 8 to STEP 9, the CPU 14 performs a control operation so that the data compression is performed on the audio signal selected by the selection switch 5 in the data compression unit 6. That is, when the stereo mode is selected, the sound signal from the selection switch 3 is selected. When the SH0 to SH2 mode is selected, the sound field according to the SH0 to SH2 mode selected by the DSP 4 is selected. The audio signals subjected to the control are respectively compressed by the data compression unit 6.
[0040]
When the operation of the data compression unit 6 is controlled in this way, UTOC information including a recording mode identification code indicating the recording mode of the audio signal to be recorded is recorded in the UTOC area of the magneto-optical disk 17, and the magneto-optical disk The data signal compressed by the data compression unit 6 is recorded in the recordable area to which the 17 audio signals are input (STEP 10). At this time, the UTOC information is generated by the CPU 14 and given to the write controller 7 so as to include information such as the title name of the music to be recorded, the reproduction time, and the recorded track position in addition to the recording mode identification code. . The title name of the song to be recorded is input by the user operating the key input unit 15.
[0041]
Therefore, for example, UTOC information composed of a recording mode identification code and a song title name is recorded in the UTOC area of the magneto-optical disk 17 as follows. The portion indicated by [] is a recording mode identification code.
1. When recorded in stereo mode [STE] Song title name
2. When recorded in SH0 mode [SH0] Song title
3. When recorded in SH1 mode [SH1] Song title
4). When recorded in SH2 mode [SH2] Song title
[0042]
When UTOC information is recorded in this way, the recording mode identification code is recorded together with the recording mode identification code so that it is represented by at least the first five characters [, *, *, *,]. Even if a user creates a song title name freely, the probability of being represented by the same symbol as the song title name is low. Therefore, the CPU 14 can recognize a recording mode identification code [***] different from the song title name.
[0043]
This is an example for the CPU 14 to identify the recording mode identification code. When the recording mode identification code is included, the recording mode identification code can be identified by always attaching a special code indicating the recording mode identification code. It doesn't matter. Information for indicating that the recording mode identification code is included in another area within the UTOC area may be stored.
[0044]
The writing control unit 7 is provided with such UTOC information from the CPU 14 for each song, and controls the head unit 8 to perform recording in the UTOC area of the magneto-optical disk 17. When the audio signal compressed by the data compression unit 6 is given to the write control unit 7, the head unit 8 is controlled so that the CPU 14 in the recordable area of the magneto-optical disk 17 is compressed to the track position designated. An audio signal is recorded for each song.
[0045]
<Playback operation>
The playback operation of the audio recording / playback apparatus configured as described above will be described with reference to the flowchart of FIG.
[0046]
When the head unit 8 is controlled by the read control unit 9 to read the magneto-optical disk 17, the UTOC information in the UTOC area is given to the CPU 14, and the compressed audio signal in the recordable area is decompressed. Is given to the unit 10 (STEP 21). At this time, first, the CPU 14 controls the read control unit 9 so as to read the UTOC information in the UTOC area. When the UTOC information is given to the CPU 14, the recording mode of the audio signal to be read is recognized from the recording mode identification code, and the song title name set by the user is recognized.
[0047]
The CPU 14 controls the UTOC area display unit 16 so that the recognized recording mode and song title name are displayed on the UTOC area display unit 16. Note that, by operating the key input unit 15, the recording mode may not be displayed and only the song title name may be displayed. Further, the playback time of the music to be played back is included in the UTOC information, and this playback time may also be displayed on the UTOC area display unit 16.
[0048]
Further, the CPU 14 recognizes the track on which the music to be reproduced included in the UTOC information is recorded, and controls the read control unit 9 so as to read the compressed audio data from the track. The compressed audio signal read out under the control of the read control unit 9 in this manner is given to the data decompression unit 10. Then, the CPU 14 controls the data decompression unit 10 so that the data decompression unit 10 performs data decompression on the compressed audio signal (STEP 22).
[0049]
When the data decompression unit 10 starts to be controlled by the CPU 14 in this way, it is determined whether or not the recording mode of the reproduced music recognized by the CPU 14 is the stereo mode (STEP 23). At this time, if the CPU 14 recognizes that the music to be played is recorded in the SH0 to SH2 mode other than the stereo mode (No), the key input unit 15 is prohibited from being operated to perform the sound field control. After that (STEP 24), the CPU 14 performs a control operation so that the selection switch 11 selects the audio signal supplied from the data decompression unit 10 (STEP 29).
[0050]
When the CPU 14 recognizes that the music to be played back is recorded in the stereo mode (Yes), the CPU 14 determines whether or not the key input unit 15 is operated to instruct the sound field control. (STEP 25). When instructed to perform sound field control (Yes), after the CPU 14 performs a control operation so that the selection switch 11 selects a sound signal given from the DSP 4 (STEP 26), the sound field in the SH0 mode is selected. It is determined whether or not an instruction to perform control is given (STEP 27). Further, when it is instructed not to perform the sound field control (No), the CPU 14 performs a control operation so that the selection switch 11 selects the audio signal given from the data decompression unit 10 (STEP 29).
[0051]
When it is instructed in STEP 27 to perform sound field control in a mode other than the SH0 mode (No), it is determined whether or not it has been instructed to perform sound field control in the SH1 mode (STEP 28). Further, when it is instructed in STEP 27 to perform sound field control in the SH0 mode (Yes), the DSP 14 is controlled by the CPU 14 to perform sound field control in the SH0 mode (STEP 30). That is, the CPU 14 controls so that the multiplication coefficients of the FIR filters 41a to 41d in the DSP 4 are set to the multiplication coefficients for the SH0 mode stored in the ROM (not shown).
[0052]
When shifting from STEP 27 to STEP 28, when it is instructed to perform sound field control in the SH1 mode (Yes), the DSP 4 is controlled by the CPU 14 to perform sound field control in the SH1 mode (STEP 31). That is, the CPU 14 controls so that the multiplication coefficients of the FIR filters 41a to 41d in the DSP 4 are set to the multiplication coefficients for the SH1 mode stored in the ROM (not shown). In STEP 28, when it is instructed to perform the sound field control in the SH2 mode (No), the DSP 14 is controlled by the CPU 14 to perform the sound field control in the SH2 mode (STEP 32). That is, the CPU 14 controls so that the multiplication coefficients of the FIR filters 41a to 41d in the DSP 4 are set to the multiplication coefficients for the SH2 mode stored in the ROM (not shown).
[0053]
Then, when moving from STEP 29 to STEP 32 to STEP 33, the audio signal selected by the selection switch 11 is converted into an analog signal by the D / A converter 12, then amplified by the amplifier 13, and output from the output terminal out ( (STEP 33).
[0054]
By doing so, the sound signal subjected to the sound field control is prohibited from being subjected to the sound field control again by the DSP 4, so that deterioration of sound quality can be prevented. In addition, since the sound signal subjected to the sound field control is output without being subjected to the sound field control again in the DSP 4, power consumption in the DSP 4 can be suppressed. Furthermore, since it is possible to recognize a sound signal that has not been subjected to sound field control, this sound signal can be output without sound field control as desired by the user. It is also possible to output by field control.
[0055]
In this embodiment, the audio signal recording / reproducing apparatus for recording / reproducing the magneto-optical disk has been described as an example. However, the recording / reproducing of the audio signal for which the sound field control is performed on other recording media The present invention can also be applied to an audio signal recording / reproducing apparatus that performs the above.
[0056]
【The invention's effect】
According to the present invention, it is possible to select whether the audio signal is recorded in stereo as it is or recorded by controlling the sound field. At this time, since the recording mode identification code is also recorded, it is possible to confirm by which method the audio signal is recorded when the recording medium is reproduced. Therefore, when the sound signal subjected to the sound field control is reproduced, the sound field control is prohibited again, and the sound quality can be prevented from deteriorating. In addition, sound signals that are not subjected to sound field control can be subjected to sound field control according to the user's wishes.
[Brief description of the drawings]
FIG. 1 is a block diagram showing the internal configuration of an audio recording / playback apparatus according to the present invention.
2 is a block diagram showing an internal configuration of a DSP provided in the audio recording / reproducing apparatus of FIG.
FIG. 3 is a flowchart showing a recording operation of the audio recording / reproducing apparatus of FIG. 1;
4 is a flowchart showing a playback operation of the audio recording / playback apparatus of FIG. 1;
[Explanation of symbols]
1a, 1b amplifier
2 A / D converter
3 Selection switch
4 DSP
5 Selection switch
6 Data compression part
7 Write controller
8 Head
9 Read controller
10 Data decompression section
11 Selection switch
12 D / A converter
13 Amplifier
14 CPU
15 Key input section
16 UTOC area display
17 Magneto-optical disk

Claims (7)

In an audio signal recording apparatus that has a sound field control signal processing unit that generates a sound signal according to a desired sound field in a pseudo manner by performing sound field control, and that records an audio signal on a recording medium,
A signal selection unit that selects a sound signal input from the outside and a sound signal that has been input from the outside and is subjected to sound field control in the sound field control signal processing unit;
The sound signal selected by the signal selection unit is recorded on the recording medium, and the sound field control is performed on the recorded sound signal and the pseudo sound field type of the sound field control applied to the recorded sound signal. A recording unit that generates a recording mode identification code that is a plurality of types of codes indicating whether or not the recording is performed, and records the recording mode identification code on the recording medium;
Have
When recording the audio signal on the recording medium by the recording unit, the audio signal is recorded in a data area of the recording medium, and the information area is different from the data area in the recording medium. An audio signal recording apparatus for recording the recording mode identification code together with information for managing the audio signal to be recorded.   The audio signal recording apparatus according to claim 1, wherein the audio signal processed by the sound field control signal processing unit, the signal selection unit, and the recording unit is a digital signal.   3. The audio signal recording apparatus according to claim 2, further comprising an A / D converter that converts the input audio signal into a digital signal and sends the digital signal to the sound field control signal processing unit when the input audio signal is an analog signal. . A sound signal recording / reproducing apparatus having a sound field control signal processing unit that generates a sound signal according to a desired sound field in a pseudo manner by performing sound field control, and recording and reproducing a sound signal on a recording medium In
A signal selection unit that selects a sound signal input from the outside and a sound signal that has been input from the outside and is subjected to sound field control in the sound field control signal processing unit;
The audio signal selected by the signal selection unit is recorded on the recording medium, and the type of the pseudo sound field of the sound field control applied to the recorded audio signal and the sound field control on the recorded audio signal A recording unit that generates a recording mode identification code that is a plurality of types of codes indicating whether or not the recording is performed, and records the recording mode identification code on the recording medium;
A playback unit that plays back the audio signal selected by the signal selection unit and outputs the same to the outside;
When the recording mode identification code read from the recording medium recognizes whether the audio signal read from the recording medium is sound field controlled, and recognizes that the sound signal is sound field controlled, A control unit that sends out the audio signal read from the recording medium directly to the reproduction unit by the signal selection unit and prohibits the sound field control by the sound field control signal processing unit;
Have
When recording the audio signal on the recording medium by the recording unit, the audio signal is recorded in a data area of the recording medium , and the information area is different from the data area in the recording medium . An audio signal recording / reproducing apparatus, wherein the recording mode identification code is recorded together with information for managing the audio signal to be recorded. When the control unit recognizes that the audio signal read from the recording medium is not subjected to sound field control, and is requested to perform sound field control,
After having been subjected to sound field control giving audio signal read out from said recording medium to said sound field control signal processing unit, according to claim 4, characterized in that the output to the outside applied to said reproducing unit Audio signal recording / reproducing apparatus. The sound field control signal processing unit, the signal selection unit, and audio signal recording and reproducing apparatus according to claim 4 or claim 5 audio signal processed by the recording unit is characterized in that it is a digital signal. When the input audio signal is an analog signal, it has an A / D converter that converts it into a digital signal and sends it to the sound field control signal processing unit,
7. The audio signal recording / reproducing apparatus according to claim 6 , wherein the reproduction unit converts a digital audio signal into an analog signal and outputs the analog signal.

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