JP3859200B2 - Portable mixing recording apparatus, control method therefor, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a portable mixing recording apparatus, etc., which is not excessively restricted by a location, prevents deterioration of sound quality as much as possible and can easily produce music by using overdubbing, etc. SOLUTION: Analog audio signals inputted from internal microphones 59, 60 are converted into digital audio signals, given an effect by an Eff1, and inputted to a mixing part MB. A MP3 audio signal of a source file 11 in a memory card 10 is expanded, converted into a digital audio signal by a decoder 37, and inputted to the mixing part MB. Both digital audio signals inputted to the mixing part MB are mixed, reproduced, outputted through an Eff2 and a DA converting part 42, compressed, converted by an encoder 38, and stored as a mixed file 12 in the memory card 10. The mixed file 12 is used as a new source file 11 next time.

Description

[0001]
[Field of the Invention]
The present invention relates to a portable mixing recording apparatus that can input a sound signal with a microphone or the like while monitoring the recorded sound signal and mix it to produce music, a control method therefor, and a program.
[0002]
[Prior art]
In recent years, music devices with improved portability have been realized by advances in audio compression technology, electronic component miniaturization technology, and the like. For example, in a portable MP3 player using MP3 (MPEG-1 Audio Layer-III) as a compression technique, a WAV file formed by digitally sampling audio signals such as music performance and singing is encoded and compressed in the MP3 format. By storing the file in flash memory etc., you can enjoy playback on the go such as outdoors. Moreover, in the portable karaoke apparatus disclosed in Japanese Patent Laid-Open No. 2000-338984, an audio signal file encoded and stored in the MP3 format is expanded and reproduced, and at the same time, a real voice is input from a microphone, By mixing and playing, you can enjoy karaoke performance of the desired song on the go.
[0003]
All of these devices are intended for reproduction and do not record and store audio signals input from a microphone or the like, but there are also devices that enable recording and storage. For example, a portable MP3 recorder has an analog input terminal, A / D converts audio signals from a cassette tape recorder, radio, etc., further encodes in MP3 format, and stores the compressed file as an audio signal file. be able to.
[0004]
However, this portable MP3 recorder cannot perform mixing recording in which a large number of input signals are multiplexed. As a music apparatus capable of mixing, for example, a double radio cassette player is known. In this double radio cassette player, while a musical sound is reproduced in one cassette, an audio input signal from a microphone or an external input terminal can be mixed with this to perform multiple recording in the other cassette.
[0005]
[Problems to be solved by the invention]
In general, when considering music production by overdubbing or the like on the go, recording and mixing functions are required while maintaining sound quality. However, since the portable MP3 player and the portable karaoke apparatus are exclusively for reproduction and cannot record input audio signals, and the portable MP3 recorder cannot be mixed, neither is suitable for music production. In addition, the double radio cassette cassette is repeatedly unmixed by repeating the mixing with the analog signal of the musical tone, so the sound quality is severely deteriorated by a large number of times of mixing, which is also not suitable for music production.
[0006]
On the other hand, a 4-channel MD multi-channel recorder using MD is known as an apparatus for music production purposes (Japanese Patent Laid-Open No. 8-77757). In this multi-channel recorder, a signal by line input can be A / D converted and voice-compressed and recorded on the MD. For example, after overdubbing several parts, mix them and move them to an empty channel (ping-pong recording). If there are many parts, record another part on the channel that was freed by ping-pong recording. Finally, you can mix down to all channels.
[0007]
However, in the multi-channel recorder, when performing ping-pong recording, the digital audio signal recorded in the MD is converted into an analog audio signal and then mixed with the signal (analog audio signal) by line input, and therefore ping-pong recording is repeated. If this happens, there is a problem that sound quality deteriorates. The multi-channel recorder is a stationary type and is not suitable for music production on the go.
[0008]
The present invention has been made to solve the above-described problems of the prior art, and its purpose is to easily produce music by overdubbing while preventing deterioration of sound quality as much as possible without being restricted by excessive location. An object of the present invention is to provide a portable mixing recording apparatus, a control method thereof, and a program that can be performed.
[0009]
[Means for Solving the Problems]
[0015]
  ContractClaim1The portable mixing recording apparatus includes: storage means for storing first to third source files composed of compressed digital audio signals; input conversion means for inputting analog audio signals to convert them into first digital audio signals; and the storage means A decoding means for sequentially reading out and decompressing the compressed digital audio signal stored in the first source file stored in the first source file and converting it into a second digital audio signal; and mixing the first digital audio signal and the second digital audio signal Mixing means for outputting a third digital audio signal, and a first encoding for sequentially compressing and converting the third digital audio signal into a compressed digital audio signal and storing the compressed digital audio signal in the second source file Means, sequentially compressing the first digital audio signal to convert it into a compressed digital audio signal, Characterized in that a second encoding means for storing a reduced digital voice signal to the third source file.
[0016]
According to this configuration, when a new source file is stored in a predetermined memory, the compressed audio signal obtained by converting the input and converted digital audio signal is stored in the predetermined memory as a separate file separate from the new source file. Therefore, even if you do not like the mixing result after repeated overdubbing, you can later process another file stored separately using a personal computer, etc. You can improve the usability of music production while leaving room for.
[0017]
  Claims2The portable mixing recording apparatus includes a storage means for storing first and second source files composed of compressed digital audio signals, an input conversion means for inputting an analog audio signal and converting it into a first digital audio signal, and the storage means. A decoding means for sequentially reading out and decompressing the compressed digital audio signal stored in the first source file stored in the first source file and converting it into a second digital audio signal; and mixing the first digital audio signal and the second digital audio signal Mixing means for outputting a third digital audio signal; and encoding means for sequentially compressing and converting the third digital audio signal into a compressed digital audio signal and storing the compressed digital audio signal in the second source file; Input / output means for inputting / outputting digital audio signals to / from other devices, and master device Setting means for setting, and when the setting means sets the master device, the digital audio signal input from another device via the input / output means is output to the mixing means for mixing, While the digital audio signal output from the mixing means is output to the other device, when the setting means does not set the master device, the output destination of the first digital audio signal is sent from the mixing means to the above-mentioned device. Control means for switching to another apparatus and controlling the digital audio signal input from the other apparatus to be output to the mixing means for mixing instead of the first digital audio signal. Features.
[0020]
  Claims3The portable mixing recording apparatus includes a storage means for storing first and second source files composed of compressed digital audio signals, an input conversion means for inputting an analog audio signal and converting it into a first digital audio signal, and the storage means. A decoding means for sequentially reading out and decompressing the compressed digital audio signal stored in the first source file stored in the first source file and converting it into a second digital audio signal; and mixing the first digital audio signal and the second digital audio signal Mixing means for outputting a third digital audio signal, and sequentially compressing and converting the third digital audio signal into a compressed digital audio signal, storing the compressed digital audio signal in the second source file, and for synchronization Encoding means for generating a signal of the same, and a synchronizing signal generated by the encoding means. Characterized by comprising a notification unit that performs metronome notification as moths.
[0040]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0041]
1A and 1B are views showing the appearance of a portable mixing recording apparatus according to an embodiment of the present invention. FIG. 1A is a plan view, FIG. 1B is a front view, and FIG. Each area is shown. The mixing recording device 20 is a music device for the purpose of producing music by inputting a sound signal with a microphone or the like while monitoring the recorded sound signal, and performing digital mixing, and can be easily handled especially on the go. The portable music device is configured as described above.
[0042]
In FIG. 2A, a direct current power is supplied from a terminal (DC) 51. A cascade terminal (cascade) 52 (a part of connection means and slave input means) is a terminal for cascade-connecting the two apparatuses as will be described later. A localization operator 53 is used to set the localization of the input voice. A memory card 10 (predetermined memory) described later is inserted into the slot 54. A USB (Universal Serial Bus) terminal 55 is a terminal for USB connection with a personal computer (not shown). A power switch 56 is pressed to turn on / off the power of the apparatus.
[0043]
In FIG. 2B, a small built-in speaker 57 is used to output an audio signal or generate various operation sounds. The master designation switch 58 is a switch for designating which apparatus is the master (the other is the slave) side in the cascade connection described later, and the recording apparatus on which the master designation switch 58 is pressed last. Is the master and the other is the slave. Built-in microphones 59 and 60 (micL / R) (a part of input conversion means) are used for stereo input of external sound such as real voice as an analog signal.
[0044]
The display unit 61 is composed of a liquid crystal display device, and various information such as a song title, time, performance time, mode, and setting information is displayed on the display unit 61 according to the situation. The disp / sys switch 62 is used for switching the display mode of the display unit 61, switching the display of a system setting screen for copying, deleting, and changing the song name of the song. The rep switch 63 is used when the musical sound is repeatedly reproduced. The EQ switch 64 and the rev switch 65 are used for selection of output ambient, for example, equalization of output sound and reverb addition.
[0045]
The mic switch 66, the inst switch 67, and the aux switch 68 are used for input audio path, that is, input selection, and any one of the selected switches is lit. On the other hand, an inst terminal 84, an external microphone (ext-mic) terminal 85 for connecting an attached pin type external microphone, and an aux terminal 86 are provided on the side of the apparatus as shown in FIG. Part of input conversion means). When the mic switch 66 is selected, normally, signals from the built-in microphones 59 and 60 can be input. However, when an external microphone is connected to the external microphone (ext-mic) terminal 85, the external microphone is used. The input signal is prioritized. When the built-in microphone is selected, the built-in speaker 57 is automatically turned off. When the inst switch 67 is selected, a signal from an electronic musical instrument such as a guitar or a keyboard connected to the inst terminal 84 can be input. When the aux switch 68 is selected, a signal from a device such as an audio device connected to the aux terminal 86 can be input as a line.
[0046]
In FIG. 5B, an input level adjustment operator 69 is used to adjust the input level of the input audio signal. The output level adjustment operator 70 is used to adjust the reproduction level of the audio signal of the source file 11 stored in the memory card 10 to be described later.
[0047]
The LED level meter 71 is composed of a plurality of LEDs, and each lights up and blinks to display an input level, a playback level, a recording level, and the like. The reproduction / recording (play / stop / ent) button 72 is used as a determination key for various settings in addition to the start and stop of reproduction and recording. The eff button 73 is used to add an effect such as a delay to the input audio signal. The met button 74 is used to instruct the setting and on / off of the metronome function. The tnr button 75 is used to use a tuner function or a tone generator function. In the input mode, the LED level meter 71 blinks according to the pitch of the input voice. In the tone mode, the set pitch (reference sound) is generated.
[0048]
The rec button 76 is used when digital recording of the input voice is performed. When the rec button 76 is pressed, the recording standby state is entered, and then the playback recording button 72 is pressed to start recording. The mix button 77 is used when digital mixing recording of the input sound and the sound signal of the source file 11 is performed. When the mixing button 77 is pressed, the mixing recording standby state is entered, and when the playback recording 72 is pressed, mixing recording starts. Is done. The pause button 78 is used to pause playback. It should be noted that the buttons 73 to 76 each have a built-in LED (not shown), and are lit according to the pressing operation status.
[0049]
The plus button 79 and the minus button 80 are used for selecting a song (hereinafter referred to as “song”) in the source file 11, and the song selected by the plus and minus buttons 79 and 80 is displayed on the display unit 61. When the desired recording is displayed, the playback recording button 72 is pressed to determine the song. If the user does not give a name to the song, a name (serial number or the like) is automatically given when the song is stored. The undo button 87 is used to cancel the previous memory access process and return to the original state.
[0050]
In FIG. 5C, headphones can be connected to the phone terminal 81, and playback of input sound, song, and mixing sound can be heard. A volume (vol) operator 82 is used to set the audio output level. The gain operator 83 is used for gain adjustment of an audio signal input via the inst terminal 84.
[0051]
FIG. 2 is a block diagram showing a functional configuration of the mixing recording apparatus. Note that the memory card 10 is a portable and detachable storage medium, and the figure shows a state in which the memory card 10 is inserted.
[0052]
An input selection unit (input select) 25 (a part of the input conversion means) switches whether to input an analog audio signal from the built-in microphones 59 and 60, the inst terminal 84, the external microphone terminal 85, or the aux terminal 86. . The analog audio signal output from the input switching unit 25 is A / D converted by the AD conversion unit 26 (part of the input conversion means) to become a digital audio signal, then equalized by EQ 27, and consonant suppression processing is performed by DYN 28. In addition, effects such as reverb, delay, flanger, etc. are given by EFF29.
[0053]
The output signal from the EFF 29 is input to the input lines (BUS 1, 2) 33 and the switch unit MSW through input level adjustment by the input level adjustment operator 69 and localization setting by the localization operator 53. As described above, in the cascade connection, the master side is designated by the master designation switch 58, but the switch unit MSW is turned on when the apparatus is the master side and turned off when the apparatus is the slave side. It is configured.
[0054]
The signal input to the input line 33 is input to an encoder (ENCODE) 39 (second encoding means). When the apparatus 20 is on the slave side, the signal input to the input line 33 is further output from the output line 8 to the master side apparatus that is cascade-connected.
[0055]
The apparatus 20 includes a storage control unit 30 (storage control means) and an undo buffer 31 (undo buffer unit). The undo buffer 31 is composed of a RAM or the like. Both the undo buffer 31 and the memory card 10 are connected to the storage control unit 30, and the storage operation is controlled by the storage control unit 30. The memory card 10 is provided with a USB I / F (interface) 35.
[0056]
FIG. 3 is a block diagram showing an internal configuration of the portable mixing recording apparatus.
[0057]
In the present apparatus 20, the undo buffer 31, the slot 54 and the USB terminal 55 are connected to the CPU 91 via the bus 97, and the RAM 92, ROM 93, input / output unit 94, operation unit 95 and display 96 are connected. Configured.
[0058]
The CPU 91 controls the entire apparatus. The RAM 92 temporarily stores various data and also functions as a work area for the CPU 91. The ROM 93 stores various data in addition to various control programs executed by the CPU 91.
[0059]
The input / output unit 94 is an element group related to input and output, and includes the cascade terminal 52, the built-in microphones 59 and 60, the terminals 84 to 86, the built-in speaker 57, the phone terminal 81, and the like. The operation unit 95 is an element group related to input and operation, and includes the above-described master designation switch 58, switches 62 to 68, adjustment operators 69 and 70, buttons 72 to 80, and the like. The display 96 is an element group related to display, and includes the display unit 61 and the LED level meter 71 described above.
[0060]
Returning to FIG. 2, the source file 11, the mix file 12, and the material file 13 can be stored in the memory card 10. These are all files composed of compressed audio signals compressed in MP3 (MPEG-1 Audio Layer-III) format.
[0061]
The source file 11 is an original file to be mixed with an input audio signal from the built-in microphones 59, 60 and the like input via the input switching unit 25. Initially, a recording of an audio input without mixing (hereinafter referred to as an audio input recording) , Which is referred to as “single recording”) (in this case, since the mixing is not performed, the name does not match). A plurality of source files 11 may exist. In addition, the source file 11 may be obtained by attaching the memory card 10 to another device and storing pre-formed data in advance.
[0062]
The mix file 12 is obtained by mixing and storing the audio signal of the source file 11 and the input audio signal via the input switching unit 25 (hereinafter referred to as “mixing recording”). It can be used as a new source file 11 instead of the file 11.
[0063]
The material file 13 is created without the input audio signal via the input switching unit 25 being mixed with the audio signal of the source file 11 and is stored as a separate file (separate file) from the mix file 12. . Whether or not to create the material file 13 at the time of mixing recording can be set by the user's intention.
[0064]
In the case of mixing recording, the audio signal of the source file 11 is decompressed and converted into a digital audio signal by a decoder (DECODE) 37 (decoding means). This digital audio signal is input to the output line 34 (mixing means) through output level adjustment by the output level adjustment operator 70.
[0065]
When the present apparatus 20 is on the master side, the signal input to the switch unit MSW through the localization setting by the localization operator 53 is also input to the output line 34. Further, as will be described later, a digital audio signal (slave side digital audio input signal) is input to the output line 34 through the line 36 (a part of the slave input means) from the cascade-connected slave devices. When a signal is input to the output line 34 from any of the switch unit MSW, the slave side device, or the decoder 37, the signal is output to the encoder (ENCODE) 38 (first encoding means) and the EFF 40, respectively. The signal is output to the slave device connected in cascade via the output line 7.
[0066]
The digital audio signal input from the output line 34 to the encoder 38 is compressed and converted in MP3 format by the encoder 38 and stored in the memory card 10 as the mix file 12. At the same time, the digital audio signal input from the input line 33 to the encoder 39 is compressed and converted in the MP3 format by the encoder 39 and stored in the memory card 10 as the material file 13.
[0067]
When the mix file 12 is stored by mixing recording, the original source file 11 is deleted. Therefore, storing the mix file 12 makes the process appear to be the same as when the new source file 11 is overwritten on the source file 11, but at that time, the original source file 11 is stored in the undo buffer 31. Temporarily stored. This makes it easy to redo the mixing recording.
[0068]
Although the undo buffer 31 is provided in the main body of the apparatus 20, it may be provided in the memory card 10. Further, from the viewpoint of ease of use of the undo function, it is desirable that the file in the undo buffer 31 is held at least until the next storage of the mix file 12.
[0069]
The digital audio signal input to the EFF 40 from the output line 34 is given an effect by the EFF 40, equalized by the EQ 41, D / A converted by the DA converter 42 to become an analog audio signal, and then the volume by the volume operator 82 After setting, the data is output to the phone terminal 81 and, in some cases, the built-in speaker 57.
[0070]
As described above, the present apparatus performs digital recording and real-time reproduction of the input sound, digital mixing recording and real-time reproduction of the input sound and the sound signal of the source file 11 (song), reproduction of the sound signal of the source file 11, and the like. be able to.
[0071]
The apparatus 20 is further provided with a tuner 45 and a tuner / metronome 44. In the input mode described above, the tuner 45 detects the pitch of the analog audio signal output from the input switching unit 25 and causes the LED level meter 71 to display it. In the tone mode described above, the tuner / metronome 44 outputs a reference tone having a set pitch to the DA converter 42. When the metronome function is on, a metronome sound is output from the tuner / metronome 44 to the DA converter 42. The reference sound or metronome sound is generated from the phone terminal 81 or the built-in speaker 57.
[0072]
The LED level meter 71 displays the input level of the input sound based on the signal that has passed through the input level adjustment operator 69, and the output level of the song based on the signal of the source file 11 that has passed through the output level adjustment operator 70. Is displayed. The LED level meter 71 also displays an input level of a signal input from the output line 34 to the encoder 38. These levels may be displayed on the display unit 61 instead of the LED level meter 71.
[0073]
Although not shown, the present apparatus 20 can access files in the installed memory card 10 from the personal computer in the same manner as an external drive by connecting to the personal computer via the USB terminal 55. In addition to copying, deleting, and moving, editing and processing can be performed on a personal computer if software is prepared.
[0074]
In such a configuration, various operations will be described.
[0075]
4 to 6 are block diagrams schematically showing the flow of signals for each operation corresponding to FIG. In each figure, Eff1 corresponds to EQ27, DYN28, and EFF29 shown in FIG. The eff button 73 is provided corresponding to Eff1. The output from the EFF 29 to the switch unit MSW is omitted. The mixing unit MB (mixing means) corresponds to the output line 34 extending from the switch unit MSW shown in FIG. EFF2 corresponds to EFF40 and EQ41 shown in FIG. A rev switch 65 is provided corresponding to Eff2.
[0076]
First, in the independent recording of the input sound, as shown in FIG. 4A, the analog sound signal input from the selected input means (built-in microphones 59, 60, etc.) is converted into a digital sound signal by the AD converter 26. After being converted, effects are applied at Eff1, and the result is input to the mixing unit MB. Thereafter, the signal is reproduced and output via the Eff2 and DA converter 42, and is compressed and converted by the encoder 38, and is stored in the memory card 10 as an MP3 file (mixed file 12 that is not mixed here).
[0077]
In the song playback of the source file 11, as shown in FIG. 4B, the audio signal of the MP3 file (here, the selected song in the source file 11) of the memory card 10 is decompressed and converted into a digital audio signal by the decoder 37. And input to the mixing unit MB. Thereafter, it is reproduced and output via the Eff2 and DA converter 42.
[0078]
In the mixing recording, as shown in FIG. 5A, the input analog audio signal is converted into a digital audio signal by the AD conversion unit 26, an effect is given by Eff1, and the like is input to the mixing unit MB. . On the other hand, the audio signal of the source file 11 of the memory card 10 is decompressed and converted into a digital audio signal by the decoder 37 and input to the mixing unit MB. Both digital audio signals input to the mixing unit MB from the Eff1 and the decoder 37 are mixed, reproduced and output via the Eff2 and the DA conversion unit 42, and compressed and converted by the encoder 38, as a mix file 12. 10 is stored. Therefore, voice input can be performed while monitoring the reproduction output. Since the mix file 12 functions as a new source file 11 from the next time, overdubbing can be repeated with almost no deterioration in sound quality.
[0079]
In mixing recording while leaving the material file 13, as shown in FIG. 5B, in addition to the operation processing in the case of FIG. 5A, the digital audio signal from Eff1 is compressed in MP3 format by the encoder 39. The converted data file 13 is stored in the memory card 10 as the material file 13. The material file 13 can be an asset for later processing with a personal computer or the like.
[0080]
When recording in accordance with the metronome, as shown in FIG. 6 (a), in addition to the operation processing in the case of FIG. 4 (a), the tuner / metronome 44 uses the sync signal from the encoder 38 as a trigger. A metronome sound is output and sounded through the DA converter 42. The metronome function can also be applied to mixing recording (FIGS. 5A and 5B) and real-time reproduction of input sound.
[0081]
When the tuner function is used, as shown in FIG. 6B, a signal for blinking the LED level meter 71 according to the pitch of the input sound is output from the tuner 45 to the AD conversion unit 26. When the tone generator function is used, as shown in FIG. 6C, a reference tone having a set pitch is output from the tuner / metronome 44 and is generated via the DA converter 42.
[0082]
FIG. 7 is a diagram illustrating a display example of the display unit 61.
[0083]
The display unit 61 displays information corresponding to each operation state and setting state. FIG. 7 shows an example of display in the case of individual recording and its stop, mixing recording and its stop.
[0084]
When the single recording is started, the rec button 76 (FIG. 1) is lit, and the display unit 61 visually displays that “REC” or the like is being recorded, as shown in FIG. The currently-recording character “<> __ <>” is displayed. When the single recording is stopped, the letter “U” is displayed as shown in FIG. “U” indicates that undo is possible. If the undo button 87 is pressed at this time, an undo screen (not shown) is displayed, and the previous recording process is canceled by a predetermined operation, and the original state is restored. .
[0085]
On the other hand, when mixing recording is started, the mix button 77 (FIG. 1) is lit, and the display unit 61 is displaying “MIX” or the like and recording is being performed as shown in FIG. A character “<> __ <> <> __ <>” (predetermined information) during mixing recording is displayed to visually indicate that this is the case when the double cassette is in operation. As a result, it is easily visually confirmed that mixing recording is being performed. The character during mixing recording is displayed until mixing recording is stopped, but may be temporarily displayed at the start of mixing recording. When the mixing recording is stopped, the character “U” is displayed as shown in FIG. 6D. If the undo button 87 is pressed at this point, an undo screen (not shown) is displayed. The previous mixing recording process is canceled by the operation, and the original state is restored.
[0086]
In addition, the character during recording and the character during mixing recording are not limited to those illustrated, but may be displayed using, for example, an LED.
[0087]
Although the undo function can be performed only once, the capacity of the undo buffer 31 may be increased so that undo processing can be performed a plurality of times.
[0088]
FIG. 8 is a block diagram showing a signal flow when mixing recording is performed by cascading two portable mixing recording apparatuses. In the drawing, portable mixing recording devices 20 having the same configuration are connected to each other through cascade terminals 52 (FIG. 1), and the master side is indicated as a master side device 20A and the slave side is indicated as a slave side device 20B. As described above, when the master designation switch 58 of the master device 20A is pressed, the switch unit MSW of both devices is turned on in the master device 20A and off in the slave device 20B. In the figure, the material file 13 creation process is omitted.
[0089]
The analog audio signal input via the input switching unit 25 of the master side device 20A is “signal A”, the MP3 audio signal stored as the source file 11 of the master side device 20A is “signal B”, and the slave side device 20B. The analog audio signal input via the input switching unit 25 is referred to as “signal C”, and the MP3 audio signal stored as the source file 11 of the master device 20A is referred to as “signal D”. Regardless, they are called similarly.
[0090]
In the master side device 20A, first, “signal A” and “signal B” are input to the mixing unit MB. Further, the “signal C” (slave side digital audio input signal) output from the output line 8 of the slave side device 20B is input to the mixing unit MB via the cascade terminal 52. The mixing unit MB generates “signal A + B + C”, which is a digital audio signal in which “signal A”, “signal B”, and “signal C” are mixed, and this is reproduced and output via the Eff2 and DA conversion unit 42. At the same time, the mixed file 12 is compressed and stored in the memory card 10 via the encoder 38. As a result, “signal C” is subject to mixing in the same way as “signal A”, so that the number of signals that can be simultaneously input as analog audio signals increases. The “signal A + B + C” is further output from the mixing unit MB to the slave side device 20B via the line 7 and the cascade terminal 52.
[0091]
On the other hand, in the slave device 20B, the “signal A + B + C” input via the cascade terminal 52 and the “signal D” from the source file 11 are input to the mixing unit MB. In order to prevent signal looping, as described above, “signal C” is not input to mixing unit MB from Eff1. The mixing unit MB generates “signal A + B + C + D”, which is a digital audio signal in which “signal A + B + C” and “signal D” are mixed, and this is reproduced and output via the Eff2 and DA conversion unit 42 and the encoder 38 is And compressed and stored in the memory card 10 as a mix file 12.
[0092]
  In order to accurately reproduce and record “signal A + B + C + D”, processing for synchronizing “signal A + B + C” and “signal D” is required. Therefore, at the time of cascade connection, it is possible to set so as not to read “signal D” from the slave-side device 20B, and only “signal A”, “signal B”, and “signal C” may be processed. In this way, the reproduction and recording of the “signal A + B + C” similar to that of the master side device 20A can be performed simultaneously on the slave side device 20B.
[0093]
  According to the present embodiment, the audio signal input as an analog audio signal and the compressed audio signal stored in the source file 11 are converted into a digital audio signal, mixed, compressed, and converted into a new source file. As a new source file can be used as the original source file for the next time, for example, if overdubbing is repeated as in a multi-channel recorder, a song in which a large number of audio signals are multiplexed Is completed. Moreover, since this apparatus is portable, it is suitable for applications such as carrying to a specific musical instrument player and mixing. Furthermore, since the mixing is performed in a digital state, even if overdubbing is repeated, the sound quality hardly deteriorates, which is suitable for music production. In addition, since the mixed digital audio signal is compressed and converted into a compressed audio signal and stored, the memory capacity can be reduced and the portability of the apparatus is improved. Therefore, music production by overdubbing or the like can be easily performed on the go while preventing deterioration of sound quality as much as possible without being restricted by excessive locations.
[0094]
  In the present embodiment, when the mix file 12 is stored as a new source file, the original source file 11 is temporarily stored in the undo buffer 31. Therefore, the mixing recording failure or the recording result can be satisfied. In the case where there is no such recording, the original source file temporarily stored in the undo buffer 31 can be used to easily perform the re-mixing recording, and the usability at the time of music production can be improved.
[0095]
  In the present embodiment, when the mix file 12 is stored, the material file 13 is stored as a separate file separate from the mix file 12. Therefore, when the overmixing is repeated and the mixing result is not finally liked. Even if it is, etc., the material file 13 can be processed later with a personal computer or the like, and the usability at the time of music production can be improved leaving room for subsequent use.
[0096]
In the present embodiment, during mixing recording, the character during mixing recording is displayed, so that it can be easily visually confirmed that mixing recording is being performed, and usability can be improved.
[0097]
In the present embodiment, another portable mixing recording apparatus can be cascade-connected as the slave side apparatus 20B, so that the input signal input from the slave side apparatus 20B can be added to the object to be mixed. The number of input signals that can be down can be increased, and the efficiency of music production can be improved.
[0098]
Note that the number of other portable mixing recording apparatuses connected in cascade may be three or more. In that case, instead of the cascade terminal 52, a master-in terminal and a slave-out terminal are provided, and the master-in terminal of the higher-level device and the slave-out terminal of the lower-level device are connected like a daisy chain to define the vertical relationship. You may do it. As a result, the number of input signals that can be mixed down at a time can be increased by the number of slave devices connected in cascade.
[0099]
In the present embodiment, MP3 is used as the compression format of the audio signal. However, the present invention is not limited to this, and other formats such as TwinVQ (frequency domain weighted interleave vector quantization), ASF (Advanced Streaming Format), and the like are used. A compression format may be adopted.
[0100]
Note that the memory card 10 may be composed of another removable storage medium, or may be composed of a fixed storage medium provided in the apparatus 20 main body.
[0101]
When the same effect is obtained by reading a storage medium storing a control program represented by software for achieving the present invention into this apparatus, the program code itself read from the storage medium is The novel function of the present invention is realized, and the storage medium storing the program code constitutes the present invention. Further, when a communication interface is provided and the program code is supplied via a transmission medium or the like, the program code itself constitutes the present invention. As a storage medium in these cases, a floppy (registered trademark) disk, a hard disk, an optical disk, a CD-ROM, a CD-R, a magnetic tape, a nonvolatile memory card, and the like can be used in addition to the ROM.
[0102]
Further, by executing the program code read out by the computer, not only the functions of the above-described embodiments are realized, but also the OS running on the computer based on the instruction of the program code performs the actual processing. It goes without saying that a case where the functions of the above-described embodiment are realized by performing part or all of the above and the processing thereof is included. Further, after the program code read from the storage medium is written into a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer, the function expansion is performed based on the instruction of the program code. It goes without saying that the CPU or the like provided in the board or the function expansion unit performs part or all of the actual processing and the functions of the above-described embodiments are realized by the processing.
[0103]
【The invention's effect】
[0105]
  ContractClaim1Portable mixing recording apparatusOr a program according to claim 4According to the above, even if you do not like the mixing result after repeated overdubbing, you can later process another file stored separately with a personal computer etc., leaving room for subsequent use. Usability when producing music can be improved.
[0107]
  Claims2Portable mixing recording apparatusOr a program according to claim 5Accordingly, the number of input signals that can be mixed down at a time can be increased by the number of connected slave recording devices, and the efficiency of music production can be improved.
[Brief description of the drawings]
FIG. 1 is a diagram showing an external appearance of a portable mixing recording apparatus according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a functional configuration of the recording apparatus.
FIG. 3 is a block diagram showing an internal configuration of the recording apparatus.
FIG. 4 is a block diagram schematically showing a signal flow for each operation (single recording, song playback) corresponding to FIG.
FIG. 5 is a block diagram schematically showing a signal flow for each operation (mixing recording) corresponding to FIG. 2;
FIG. 6 is a block diagram schematically showing the signal flow for each operation (when the metronome, tuner, and tone generator functions are operated) corresponding to FIG.
FIG. 7 is a diagram showing a display example of a display unit.
FIG. 8 is a block diagram showing a signal flow when mixing recording is performed by cascading two recording apparatuses.
[Explanation of symbols]
  10 Memory carDo, 11 source file, 12 mix file, 13 material file, 25 input switchingPart, 26 AD conversionPart, 30 Memory controlPart, 31 AndubachA, 34 output lineN, 36 RaiN37 DecoDa, 38 EncorDa39 EncorDa, 52 Cascade endChild, 59, 60 Built-in MyThe, 61 DisplayPart84 inst endChild, 85 External microphone endChild86 aux endChild, MB mixingPart, 91 CPU, 92 RAM, 93 ROM

Claims (6)

Storage means for storing first to third source files comprising compressed digital audio signals;
Input conversion means for inputting an analog audio signal and converting it into a first digital audio signal;
Decoding means for sequentially reading out and decompressing the compressed digital audio signal in the first source file stored in the storage means and converting it into a second digital audio signal;
Mixing means for mixing the first digital audio signal and the second digital audio signal to output a third digital audio signal;
First encoding means for sequentially compressing and converting the third digital audio signal into a compressed digital audio signal, and storing the compressed digital audio signal in the second source file;
A portable mixing recording comprising: a second encoding means for sequentially compressing and converting the first digital audio signal into a compressed digital audio signal, and storing the compressed digital audio signal in the third source file. apparatus. Storage means for storing first and second source files comprising compressed digital audio signals;
Input conversion means for inputting an analog audio signal and converting it into a first digital audio signal;
Decoding means for sequentially reading out and decompressing the compressed digital audio signal in the first source file stored in the storage means and converting it into a second digital audio signal;
Mixing means for mixing the first digital audio signal and the second digital audio signal to output a third digital audio signal;
Encoding means for sequentially compressing and converting the third digital audio signal into a compressed digital audio signal, and storing the compressed digital audio signal in the second source file;
Input / output means for inputting / outputting digital audio signals to / from other devices;
Setting means for setting the master device;
When the setting device sets the master device, the digital audio signal input from another device via the input / output device is output to the mixing device for mixing and is output from the mixing device. When the setting unit does not set the digital audio signal to the other device, the output destination of the first digital audio signal is switched from the mixing unit to the other device. And a control means for controlling the digital audio signal input from the other device to be output to the mixing means for mixing instead of the first digital audio signal. apparatus. Storage means for storing first and second source files comprising compressed digital audio signals;
Input conversion means for inputting an analog audio signal and converting it into a first digital audio signal;
Decoding means for sequentially reading out and decompressing the compressed digital audio signal in the first source file stored in the storage means and converting it into a second digital audio signal;
Mixing means for mixing the first digital audio signal and the second digital audio signal to output a third digital audio signal;
Encoding means for sequentially compressing and converting the third digital audio signal into a compressed digital audio signal, storing the compressed digital audio signal in the second source file, and generating a sync signal;
A portable mixing recording apparatus, comprising: a notification means for performing metronome notification using a sync signal generated by the encoding means as a trigger. A program for causing a computer to execute a control method of a portable mixing recording apparatus,
The control method is:
An input conversion step of inputting an analog audio signal and converting it into a first digital audio signal;
A decoding step of sequentially reading out and decompressing the compressed digital audio signal in the first source file stored in the storage means for storing the first to third source files composed of the compressed digital audio signal, and converting it into a second digital audio signal; ,
A mixing step of mixing the first digital audio signal and the second digital audio signal to output a third digital audio signal;
A first encoding step of sequentially compressing and converting the third digital audio signal into a compressed digital audio signal and storing the compressed digital audio signal in the second source file;
A program comprising: a second encoding step of sequentially compressing and converting the first digital audio signal into a compressed digital audio signal and storing the compressed digital audio signal in the third source file. A program for causing a computer to execute a control method of a portable mixing recording apparatus,
The control method is:
An input conversion step of inputting an analog audio signal and converting it into a first digital audio signal;
Decoding that sequentially reads and expands the compressed digital audio signal in the first source file stored in the storage means for storing the first and second source files composed of the compressed digital audio signal, and converts them into a second digital audio signal Process,
A mixing step of mixing the first digital audio signal and the second digital audio signal to output a third digital audio signal;
An encoding step of sequentially compressing and converting the third digital audio signal into a compressed digital audio signal, and storing the compressed digital audio signal in the second source file;
Digital audio input from another device via input / output means for inputting / outputting a digital audio signal to / from another device when the setting device for setting the master device is set as the master device When the signal is output to the mixing step for mixing and the digital audio signal output from the mixing step is output to the other device, while the master device is not set by the setting unit, The output destination of the first digital audio signal is switched from the mixing step to the other device, and the digital audio signal input from the other device is replaced with the first digital audio signal to the mixing step for mixing. And a control process for controlling to output the program. A program for causing a computer to execute a control method of a portable mixing recording apparatus,
The control method is:
An input conversion step of inputting an analog audio signal and converting it into a first digital audio signal;
A decoding step of sequentially reading out and decompressing the compressed digital audio signal in the first source file stored in the storage means for storing the first and second source files composed of the compressed digital audio signal, and converting it into a second digital audio signal; ,
A mixing step of mixing the first digital audio signal and the second digital audio signal to output a third digital audio signal;
An encoding step of sequentially compressing and converting the third digital audio signal into a compressed digital audio signal, storing the compressed digital audio signal in the second source file, and generating a signal for synchronization;
And a notifying step for notifying a metronome using a sync signal generated by the encoding step as a trigger.

Images