JP4187444B2 - Audio recording / playback device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data recording / reproducing apparatus, and more particularly to a data recording / reproducing apparatus having a reproducing function in consideration of a volume setting value.
[0002]
[Prior art]
Conventionally, a so-called semiconductor audio player that converts compressed music data recorded in a semiconductor memory into an audio signal and outputs the audio signal through headphones or the like has been commercialized. Among these functions, the voice memo function is used to input dictation and conference content using a built-in microphone, and then convert it into digital data in an internal circuit and record it in the built-in semiconductor memory. Some have
[0003]
In such a semiconductor audio player, normal music data among audio data, for example, music data such as pops, is recorded at a relatively high recording level. On the other hand, music data recorded by the voice memo function among audio data is recorded at a relatively low recording level due to circumstances such as microphone characteristics or recorded contents.
[0004]
[Problems to be solved by the invention]
However, in such a case, if the music data and the audio data are reproduced with the same attenuation rate with respect to the reference signal, the recording level is different, so that the audio data reproduction level is higher than the music data reproduction level. Will also get smaller.
[0005]
Therefore, for example, if the music data is played after adjusting the volume value to be appropriate for playing the music data and then playing the music data, the playback level may become too high for playing the music data. It was.
[0006]
In order to deal with such a problem, an actual product employs a technique in which a reproduction level of music data and a volume value of audio data are separately provided. However, in such a method, since the playback volume value of music data and the playback volume value of audio data are not linked, if the volume value is lowered while listening to audio data, the playback volume value of music data is Although the music volume is not lowered, it is determined that the reproduction volume value of the music data is also lowered, and there is a possibility that the music data is reproduced when the reproduction volume value is too large.
[0007]
The object of the present invention has been made in view of the above problems, and the object of the present invention is to prevent audio data from being inadvertently reproduced at a high volume when reproducing audio data having different recording levels. A data recording / reproducing apparatus is provided.
[0008]
[Means for Solving the Problems]
  In order to achieve the above object, an audio recording / reproducing apparatus according to the first aspect of the present invention converts audio data into a first audio file and records the first audio file on the recording medium. A first operation mode capable of reading out and reproducing from a recording medium, and a second operation mode capable of reading out and reproducing a second audio file obtained by converting music data recorded on the recording medium; An audio recording / reproducing apparatus comprising: a setting means for setting a volume value for changing a reproduction level; and a selection means for selecting one of the first operation mode and the second operation mode. From the state in which the first operation mode is selected by the selection unit to the state in which the second operation mode is selected by the selection unit, and the audio file is reproduced again. When an operation to instruct processing is performed, a determination unit that determines whether or not the volume value set by the setting unit is equal to or greater than a predetermined value, and the volume value is less than the predetermined value by the determination unit An audio file playback process is performed, and when the volume determination unit determines that the volume value is equal to or greater than a predetermined value, a warning is displayed and an operation for instructing the audio file playback process is performed. Or control means for controlling the voice recording / playback apparatus to be in a standby state until an operation for instructing to stop the playback processing of the voice file is detected.
[0009]
  In order to achieve the above object, an audio recording / reproducing apparatus according to a second aspect of the present invention is the audio recording / reproducing apparatus according to the first aspect, wherein the first audio file is encoded by the DSS method. The second audio file is a file encoded by the WMA method or the MP3 method.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0016]
FIG. 1 is a diagram showing a configuration of an audio recording / reproducing apparatus according to an embodiment of the present invention. First, in the audio recording / reproducing apparatus, each block will be described along the signal flow when audio is recorded. As shown in FIG. 1, the audio recording / reproducing apparatus of this embodiment includes a microphone 101 that converts audio into an electrical signal and a microphone jack 102 that inputs an audio signal from an external device such as an external microphone. Then, the input selector switch 103 selects which of these is used. This input selector switch 103 is configured to select the microphone jack 102 when the terminal connected to the external device is connected to the microphone jack 102, and to select the microphone 101 otherwise. ing. In the present embodiment, both the microphone 101 and the microphone jack 102 are input in monaural with one audio channel.
[0017]
The audio signal selected by the input selector switch 103 is input to the preamplifier 104 and amplified. Control of the amplification factor or power supply of the preamplifier 104 is controlled by a control circuit CPU 116 that controls the overall operation of the audio recording / reproducing apparatus. The audio signal amplified by the preamplifier 104 is input to the input amplifier 105a of the stereo codec 105 that converts the signal between the audio signal and the digital signal. The audio signal is amplified again, and then input to the A / D converter R105b and the A / D converter L105c that convert the audio signal, which is an analog signal, into a digital signal. Here, the audio signal is converted into a digital audio signal and input to the digital filter 105d. Since the stereo codec 105 itself supports conversion of an analog signal into a digital signal and conversion from a digital signal to an analog signal with respect to a stereo signal, the A / D converter also has a right channel and a left channel 105b. Although two microphones 105c are provided, since the microphone 101 or the microphone jack 102 is a monaural input, a configuration in which one input signal is input to both the A / D converters 105b and 105c as described above. Adopted.
[0018]
Next, the digital filter 105d performs processing such as removing unnecessary quantization noise called aliasing noise, which is generated when the above-described audio signal is converted into a digital audio signal, from the digital audio signal. The digital audio signal from which the quantization noise has been removed is transferred to a digital signal processing unit (hereinafter abbreviated as DSP) 114. Under the control of the CPU 116, the DSP 114 encodes (compresses and converts) the input digital audio signal according to a predetermined format in units of frames to generate encoded data. In this audio recording / reproducing apparatus, an encoding method called Digital Speech Standard (hereinafter abbreviated as DSS) is used. The encoded data generated in this way is transferred to a memory card 117 as encoded data recording means. The memory card 117 is composed of a semiconductor memory such as a flash memory having a card shape that can be attached to and detached from the main body of the audio recording / reproducing device. Specifically, there is Smart Media (registered trademark) or the like, and the case where this audio recording / reproducing apparatus uses this will be described. The encoded data is sequentially written at a predetermined address in the memory card 117 under the control of the CPU 116 via the bidirectional bus transceiver IC 115. The encoded data written in the memory card 117 is handled with a file as one unit (the encoded data file encoded by the DSS method is hereinafter referred to as a DSS file). Further, since the audio recording by the audio recording / reproducing apparatus is performed in monaural, only the encoded data of the digital audio signal output from the A / D converter R105b side is recorded in the memory card 117. It has become.
[0019]
Next, the function of each block will be described along the signal flow when the encoded data recorded in the memory card 117 is reproduced. First, encoded data is sequentially transferred from the memory card 117 to the DSP 114. The encoded data transferred to the DSP 114 is decoded (decompressed) into a digital audio signal in predetermined frame units under the control of the CPU 116. The memory card 117 can also record encoded data other than the DSS file, as will be described in detail later. Therefore, the DSP 114 determines which encoding method is used for the encoded data sent from the memory card 117, and decodes the encoded data according to the encoding method.
[0020]
In addition, the audio recording / playback apparatus according to the present embodiment includes a Windows Media (registered trademark) method (hereinafter referred to as a WMA method, which is referred to as a WMA file) of Microsoft Corporation (registered trademark), Motion Picture Experts. It is possible to perform three types of decoding: Groupe-1 Audio Layer 3 system (hereinafter referred to as MP3 system, and the encoded data file is referred to as MP3 file) and DSS system. The decoded digital audio signal is transferred to the stereo codec 105. The transferred digital audio signal is subjected to unnecessary quantization noise removal in the digital filter 105 d in the stereo codec 105. Thereafter, the D / A converter R105e and the D / A converter L105f convert the digital audio signal into an analog audio signal for each of the left and right channels, and the output amplifier R105g and the output amplifier L105h amplify the signal. Are output from the stereo codec 105. When the original encoded data is monaural data, the same signal is input to both the left and right channels, processed and output.
[0021]
The output signals of the left and right channel audio signals output from the stereo codec 105 are switched by output selector switches 106 and 107 that are linked to each other. The audio signal is output to a headphone terminal R111 and a headphone terminal L112 for connecting an external headphone or the like to reproduce the audio signal using an external reproduction device, and a speaker 113 provided in the main body of the audio recording / reproducing apparatus. Two are available. Further, when the output changeover switches 106 and 107 are switched to the 106a and 107a sides, respectively, the headphone terminal R111 and the headphone terminal L112 are selected as output destinations, and the headphone amplifier R108 and the headphone amplifier L109 match the output from the headphone terminal. The audio signal is amplified with the amplification factor and output for each of the left and right channels. When the output selector switches 106 and 107 are switched to the 106b and 107b sides, respectively, the speaker 113 is selected as the output destination. Since only one speaker 113 is built in the main body, the audio signal is amplified by the speaker amplifier 110 with an appropriate amplification factor after being synthesized with the signals of the left and right channels and output from the speaker 113. . The control circuit CPU 116 is connected to several circuits in addition to those described above.
[0022]
The display unit 119 includes a two-color LED and a liquid crystal display having a backlight, and displays an operation state and the like of the audio recording / reproducing apparatus. The display drive circuit 118 drives the display unit 119 to display under the control of the CPU 116. The operation switch group 120, which will be described in detail later, is an operation switch that is provided on the exterior of the audio recording / reproducing apparatus and controls various functions. The power supply circuit 121 is a circuit for supplying power for driving the audio recording / reproducing apparatus. The power supply control for the battery, battery check circuit, power-on reset circuit, booster circuit, step-down circuit, external power supply connection circuit, and the like. Including circuitry.
[0023]
The built-in memory 122 is composed of an EEPROM which is a rewritable non-volatile memory built in the main body. The user ID, recording mode (standard mode / long-time mode) selection setting, beep sound (ON / OFF) are set. Various settings, parameters, and the like that should be recorded even when power is not supplied to the CPU 116, such as selection settings and data reproduction positions, are recorded. The audio recording / reproducing apparatus can be connected to an external device such as a personal computer. The audio recording / playback apparatus is connected to an external device and performs two-way communication. For example, the encoded data file recorded on the hard disk of a personal computer is transferred to the memory card 117, and vice versa. The encoded data file recorded in 117 is transferred to a recording medium on the personal computer side, or the audio signal input from the microphone 101 is converted into a digital audio signal by the stereo codec 105 and encoded by the DSP 114 Various other processes such as recording data directly on a recording medium on the personal computer side can be performed.
[0024]
The audio recording / playback apparatus according to the present embodiment is configured to be connected via an interface called Universal Serial Bus (hereinafter referred to as USB) for communication with the external device such as the personal computer. Yes. The external connection terminal 124 is a connection terminal for connecting to a USB cable, is controlled by the communication driver 123, and is connected to the CPU 116 via an internal bus. The bidirectional bus transceiver IC 115 is provided on the bus line in order to cut off the connection between the connection terminal on the audio recording / reproducing apparatus side of the memory card 117 (not shown) and the CPU 116 and the USB connection terminal 124. is there. This is because, when a USB cable is connected to the external connection terminal 124 and the CPU 116 is communicating with an external device, if the memory card 117 is inserted, an electrical short circuit occurs between the bus lines. This is to prevent the memory card 117 and the CPU 116 from being damaged. Accordingly, when the memory card 117 is not loaded and the CPU 116 is communicating with the external device via the USB connection terminal 124, the bidirectional bus transceiver IC 115 is connected to the connection terminal on the audio recording / reproducing apparatus side of the memory card 117. The connection with the CPU 116 is cut off.
[0025]
Here, an operation mode of the audio recording / reproducing apparatus will be described. This audio recording / reproducing apparatus has two operation modes. One is a first mode (hereinafter referred to as a recorder mode) in which sound input from a microphone or a microphone jack can be recorded and the recorded one can be reproduced, and the other is This is a second mode (hereinafter referred to as a player mode) specialized in reproducing an encoded data file recorded on a recording medium, in which a recording operation cannot be performed.
[0026]
In the audio recording / reproducing apparatus of the present embodiment, in the recorder mode, it is assumed that the recorder mode is mainly used for message memos, dictation, conference recording, etc., and the DSS method suitable for long-time recording is used as the encoding method. I will do it. In the player mode, it is assumed that music is mainly listened to, and WMA and MP3 encoding capable of high-quality reproduction is used.
[0027]
Next, the outline of the present audio recording / reproducing apparatus will be described from the appearance with reference to FIGS. FIG. 2 is a view of the external appearance of the audio recording / playback apparatus according to the present embodiment as seen obliquely from the front, and FIG. 3 is a view seen from the obliquely rear. A main display unit 202 is disposed in front of the main body 201. The main display unit 202 is configured by an LCD display device, and can perform various displays such as a remaining battery level, a recording mode, a file number, a user ID, various time displays, and an operation state display. Further, when the operation button is operated, the backlight is turned on for several seconds. The recording button 203 is a button for instructing the start of audio recording. The recording button 203 can be operated only in the recorder mode. When operated in the player mode, an error alarm sounds and the recording start instruction is ignored. The stop button 204 is a button for instructing to stop the operation when the apparatus is in operation such as recording and reproduction. The playback button 205 is a button for instructing the start of playback of the encoded data file recorded on the memory card 117. The fast reverse button 206 performs fast rewinding of the encoded data file being reproduced, decrements the file number when selecting the encoded data file to be reproduced, and decrements the parameter when setting the menu. It is a button for. The fast-forward button 207 increments a file number when performing fast-forward or fast-forward reproduction of an encoded data file being reproduced, selecting an encoded data file to be reproduced, or incrementing a parameter when setting a menu. It is a button for doing. It should be noted that the fast reverse button 206 and the fast forward button 207 are integrally formed and are a so-called seesaw switch. The erase button 208 is a button for erasing the encoded data file selected using the fast-reverse button 206 or the fast-forward button 207 from the memory card 117. Specifically, when the encoded data file to be erased is selected and the erase button is pressed once, the encoded data file to be erased is displayed blinking on the display window 202. An operation of pressing the erase button 208 is performed. Thereby, a desired encoded data file can be erased from the memory card 117.
[0028]
The index button 209 is a button having a different function between the recorder mode and the player mode. In the recorder mode, an index mark is added to the encoded data file being recorded. Note that the number of recordable index marks is 16 or less per file. In the case of the player mode, several types of frequency characteristics suitable for the music to be reproduced are prepared in advance (in this audio recording / reproducing apparatus, normal, pops, jazz, classic, and user-defined five types). It is a button for selecting a desired frequency characteristic and changing the reproduced sound. The menu button 210 is a button for performing various settings related to the audio recording / reproducing apparatus, such as recording mode setting, clock setting, user ID setting, and the like. In the player mode, a surround effect or a special effect such as bass amplification can be switched. The folder button 211 is a button having a different function between the recorder mode and the player mode. In the case of the recorder mode, a plurality of folders are prepared in the memory card 117 for storing the encoded data file, but it functions as a button for switching them. In the case of the player mode, it functions as a button for setting the playback mode.
[0029]
Further, in the case of this audio recording / reproducing apparatus, all the encoded files handled in the player mode are reproduced only once in order (normal reproduction mode), only one file is repeatedly reproduced (one-track peat reproduction mode), and in the player mode. Play all encoded files handled repeatedly in order (all-track repeat playback mode), randomly play encoded files handled in player mode (random repeat playback mode), and randomly play encoded files handled in player mode once You can select from playback in order (random playback mode).
[0030]
The headphone jack 212 is for outputting a sound signal to the headphone, an external speaker, or an external sound processing device, and a headphone terminal R111 and a headphone terminal L112 are disposed therein. A reproduced sound can also be output from the speaker 213. The playback output switching mechanism outputs a playback signal from the headphone jack if a plug is inserted into the headphone jack 212, and outputs a playback sound from the speaker 213 if a plug is not inserted into the headphone jack 212. It is configured as follows. The headphone jack 212 and the speaker 213 can generate a warning signal or a warning sound. The microphone jack 214 is a jack for inputting an audio signal from an external microphone or an external audio processing device. In addition, a microphone 215 is also built in the main body. As in the case of playback output, these audio signal input switching mechanisms input audio signals from the microphone jack 214 if a plug is inserted into the microphone jack 214, and output audio from the microphone 215 if no plug is inserted. It is configured to input a signal.
[0031]
Next, the indicator 216 mainly displays the state of reproduction or recording operation, and a two-color LED is used. It is configured to light up in green during playback and to light up red during recording. The indicator 216 is also used for warning display. When a warning is issued to the user for some reason, the indicator 216 performs red blinking display. The volume knob 217 is for adjusting the output level from the headphone jack 212 and the speaker 213. The recording medium insertion slot 218 is an opening for inserting the memory card 117. The operation mode switch 219 is a switch for switching the operation mode of the audio recording / reproducing apparatus between the recorder mode and the player mode described above. The microphone sensitivity switch 220 is a switch for setting the input level of the microphone 215 and can be switched between high sensitivity (conference mode) and low sensitivity (dictation mode).
[0032]
The hold switch 221 sets and cancels a so-called hold function that invalidates the operation input of the push button switch and shifts the operation mode of the audio recording / playback apparatus to the power saving mode when the operation is stopped. It is a switch to do. The power jack 222 is connected to an external power source and receives power from the outside. The eject knob 223 is for taking out the memory card 117 inserted from the recording medium insertion slot 218. The battery lid 224 is a lid that covers the battery chamber. The external connection terminal 225 is a terminal for connecting to an external device such as a personal computer for communication. This audio recording / reproducing apparatus uses a USB terminal. The main switch 226 is a switch for turning on / off the operation of the audio recording / reproducing apparatus. In addition, the power switch 226 is mechanically engaged with the eject knob 223 in the ON state so that the memory card 117 cannot be taken out. The various operation buttons described above are push button switches, and are configured such that the switch state is turned ON by a pressing operation.
[0033]
Next, how data is recorded in the memory card 117 used in the audio recording / reproducing apparatus will be described with reference to FIG. In the route of the memory card 117, an encoded data file 41, a music order data file 42, DSS file folders 43, 44, 45, and a codec data folder 54 are recorded. The encoded data file 41 has MP3 or WMA as an extension, and indicates that these are music data files encoded by the MP3 system or the WMA system.
[0034]
These are encoded data files that can be reproduced in the player mode described above. The music order data file 42 is a file having the playback order of the encoded data file that can be played back in the player mode as table data. In order to change the reproduction order of the encoded data file in the player mode, the music order file 42 is rewritten under the control of the CPU 116. The DSS file folders 43, 44, and 45 are folders for storing DSS files. In the recorder mode, three folders A, B, and C are provided for organizing the DSS files, and the DSS file folders 43, 44, and 45 correspond to these folders A, B, and C, respectively. DSS file folders 43, 44, and 45 store DSS files 46, 47, and 48, respectively, which can be played back in the recorder mode. At the time of recording, a DSS file is created in one of these DSS file folders 43, 44, 45. The reproduction order of the DSS files 46, 47, 48 is recorded in the reproduction order data files 51, 52, 53 as table data for each folder.
[0035]
In consideration of the display capability of the display unit 202, the usability of the operator, and the like, in the audio recording / reproducing apparatus of the present embodiment, the number of recordable files per folder is 199 in the recorder mode, and 597 as a whole. It is assumed. In the DSS file folder 43, a folder name data file 49 and a recovery data file 50 are recorded in addition to the above-described files. In the audio recording / reproducing apparatus, the display names of the folders A, B, and C described above can be changed to arbitrary display names on the main display unit 202. In the folder name data file 49, data for associating the display name with the DSS folder files 43, 44, 45 is recorded. The recovery data file 50 is a file in which data for recovery when data in the DSS file folder 43, 44, 45 is destroyed for some reason. The codec folder 54 is a folder for storing codec files 55 and 56 of encoded data files to be reproduced in the player mode. The first three characters of the file names of the codec files 55 and 56 use the extension of the corresponding encoded data file. The extension of these codec files is img. A codec file for recording and reproduction in the recorder mode is stored in the ROM in the CPU 116.
[0036]
Next, FIG. 5 is a diagram showing a reproduction level adjustment table of the recording / reproducing apparatus. In the table, the index value is the value of the index displayed on the volume knob 217. The volume instruction value is a value obtained by the CPU 116 reading the output of the volume control device 125 after A / D conversion. The set attenuation value is a value indicating how much attenuation is performed from the reference signal level (or maximum signal level) output from the output amplifiers 105g and 105h. The set attenuation value is determined by the volume instruction value read by the CPU 116.
[0037]
Next, FIG. 6 is a diagram showing a main flow of the embodiment of the present invention. As shown in FIG. 6, initialization is performed in S1, and the process proceeds to S2. In S2, it is determined whether the mode is the recorder mode or the player mode. If the player mode is selected, the process proceeds to S3. In S3, 1 is set to F (flag) when the recorder mode is switched to the player mode, and the process proceeds to S5. . If the recorder mode is not switched to the player mode and the recorder mode is originally set, F is not set to 1 and the process proceeds to S5. In S5, it is determined whether or not the recording button 203 has been pressed. If the recording button 203 is pressed, a warning is displayed, and the process proceeds to S7. If the recording button 203 is not pressed, the process proceeds to S7.
[0038]
Next, in S7, it is determined whether or not the playback button 205 has been pressed. If the playback button 205 is pressed, a playback process described later is performed, and the process proceeds to S9. If the playback button 205 is not pressed, the process proceeds to S9. In S9, it is determined whether or not the fast-forward button has been pressed. If the fast-forward button 207 is pressed, fast-forwarding is performed, and the process proceeds to S11. If the fast-forward button 207 is not pressed, the process proceeds to S11. In S11, it is determined whether or not the fast reverse button 206 has been pressed. If the fast-return button 206 is pressed, rewinding is performed, and the process proceeds to S13. If the fast-return button 206 is not pressed, the process proceeds to S13. In S13, it is determined whether or not the stop button 204 has been pressed. When the stop button 204 is pressed, if any operation process is performed, the process is stopped, and the process proceeds to S15. If the stop button 204 is not pressed, the process proceeds to S15. In S15, it is determined whether or not the menu button 210 has been pressed. If the menu button 210 is pressed, the menu setting process is performed, and the process proceeds to S16. If the menu button 210 is not pressed, the process proceeds to S16. In S16, it is determined whether or not the delete button 208 has been pressed. If the erase button 208 is pressed, the process is erased, and the process returns to S1. If the erase button 208 is not pressed, the process returns to S1.
[0039]
On the other hand, if it is determined in S2 that the recorder mode is selected, the process proceeds to S19. In S19, it is determined whether or not the recording button 203 has been pressed. If the recording button 203 is pressed, recording is performed, and the process proceeds to S21. If the recording button 203 is not pressed, the process proceeds to S21. Next, in S21, it is determined whether or not the playback button 205 has been pressed. If the playback button 205 is pressed, playback is performed, and the process proceeds to S23. If the playback button 205 is not pressed, the process proceeds to S23. In S23, it is determined whether or not the fast-forward button 207 has been pressed. If the fast-forward button 207 is pressed, fast-forwarding is performed, and the process proceeds to S25. If the fast-forward button 207 is not pressed, the process proceeds to S25. In S25, it is determined whether or not the fast reverse button 206 has been pressed. If the fast-return button 206 is pressed, rewinding is performed, and the process proceeds to S27. If the fast-return button 206 is not pressed, the process proceeds to S27 as it is. In S27, it is determined whether or not the menu button 210 has been pressed. If the menu button 210 is pressed, the menu setting process is performed, and the process proceeds to S29. If the menu button 210 is not pressed, the process proceeds to S29. In S29, it is determined whether or not the delete button 208 has been pressed. If the erase button 208 is pressed, the process is erased, and the process returns to S1. If the erase button 208 is not pressed, the process returns to S1.
[0040]
Next, FIG. 7 is a diagram showing a flow of the reproduction process when the reproduction button 205 is pressed in S7. As shown in FIG. 7, when the playback mode is entered, it is determined in S30 whether 1 is set in F (flag). When 1 is set in F, the process proceeds to S32, and it is determined whether the reproduction volume index value is 6 or more, that is, a warning volume value. Note that the judgment level at the sound volume instruction value is 18. If the reproduction volume instruction value is 6 or more, the process advances to S34 to warn that the reproduction volume index value is 6 or more. This warning may be a display on the screen, a beep sound, or the like, and may be made known to the user. Next, after giving a warning in S34, the process proceeds to S36 to prompt the user to determine whether or not to reproduce. If the playback button 205 is pressed here, the process proceeds to S38 to perform playback. On the other hand, when F does not stand in S30 (F = 0), the process proceeds to S38 and reproduction is performed. If the reproduction volume index value is less than 6 in S32, the process similarly proceeds to S38 to perform reproduction. If the playback button 205 is not pressed in S36, the process proceeds to S42 to determine whether the stop button 204 is pressed. If it is determined in S42 that the stop button 204 has been pressed, the process ends and the process returns to the original flowchart. On the other hand, if it is determined that the stop button 204 has not been pressed, the process returns to S36. That is, the determinations in S36 and S42 are repeated until either the playback button 205 or the stop button 204 is pressed. Then, after the reproduction is performed in S38, the process proceeds to S40, F is returned to 0, and the process ends.
[0041]
In the embodiment of the present invention, the first operation mode capable of both recording the input audio data on the recording medium and reproducing the audio data recorded on the recording medium; and There is a second operation mode in which only one of the audio data recorded on the recording medium can be played back, but in the second operation mode, only recording is not possible. Other operations such as erasing are possible. Although the warning volume value has been described as a fixed value (index value 6, volume indication value 18) in the present embodiment, the warning volume value is not limited to this, and is recorded as a variable value in the built-in memory 122, for example, A step of changing the warning volume value in the setting process may be added so that the user can change it to a desired value. Further, in the same configuration, the user can determine whether or not to perform the processing of S30 to S36 in the menu setting processing, and skip these processing before S30 according to the setting in FIG. The playback process flow may be changed.
[0042]
As described above, by using the embodiment of the present invention, even when the reproduction volume is excessively high, the user is warned and the user selects whether to perform reproduction, and the reproduction volume value is higher than what the user intended. In this case, the reproduction volume value is lowered at this time, so that the reproduction can be performed with the reproduction volume value intended by the user.
[0043]
【The invention's effect】
By using the present invention, it is possible to prevent inadvertent reproduction of audio data at a large volume even when reproducing audio data having different recording levels.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of an audio recording / reproducing apparatus according to an embodiment of the present invention.
FIG. 2 is a diagram of an external appearance of the audio recording / reproducing apparatus according to the embodiment of the present invention as viewed obliquely from the front.
FIG. 3 is a diagram of the appearance of the audio recording / reproducing apparatus according to the embodiment of the present invention as viewed obliquely from the rear.
FIG. 4 is a view for explaining a data recording method of the memory card according to the embodiment of the present invention.
FIG. 5 is a view showing a reproduction level adjustment table of the recording / reproducing apparatus according to the embodiment of the invention.
FIG. 6 is a diagram showing a main flow according to the embodiment of the present invention.
FIG. 7 is a view showing a playback flow in a player mode according to the embodiment of the present invention.
[Explanation of symbols]
113 ... Speaker, 117 ... Memory card, 41 ... Encoded data file, 54 ... Codec folder, 55, 56 ... Codec file, 101 ... Microphone, 103 ... Input selector switch, 104 ... Preamplifier, 105 ... Stereo codec, 114 ... Digital Signal processing unit 115 ... Bidirectional bus transceiver IC, 117 ... Memory card, 118 ... Display drive circuit, 119 ... Display unit, 120 ... Operation switch group, 121 ... Power supply circuit, 122 ... Built-in memory, 123 ... Communication driver, 124 ... External connection terminal

Claims (2)

  A first operation mode in which audio data is converted into a first audio file and recorded on a recording medium, and the first audio file can be read from the recording medium and reproduced, and recorded on the recording medium An audio recording / reproducing apparatus having a second operation mode capable of reading and reproducing the second audio file obtained by converting the music data that has been converted;
  Setting means for setting the volume value to change the playback level;
  Selecting means for selecting any one of the first operation mode and the second operation mode;
  When the second operation mode is selected by the selection unit from the state in which the first operation mode is selected by the selection unit, and an operation for instructing an audio file reproduction process is performed Determining means for determining whether or not the volume value set by the setting means is equal to or greater than a predetermined value;
  When the determination means determines that the volume value is less than a predetermined value, a sound file reproduction process is performed. When the determination means determines that the volume value is greater than or equal to a predetermined value, a warning is displayed. And a control means for controlling the voice recording / reproducing apparatus to be in a standby state until an operation for instructing the audio file reproduction process or an operation for instructing to stop the audio file reproduction process is detected
  An audio recording / reproducing apparatus comprising:   The first audio file is a file encoded by a DSS method, and the second audio file is a file encoded by a WMA method or an MP3 method. Voice recording and playback device.

Images