JP2012114851A - Audio device and audio system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an audio device and an audio system for emitting sounds in accordance with states of a plurality of audio devices in an audio system.SOLUTION: A portable audio device emits sounds according to first audio data and determines whether an earphone is connected to the device (SA2). When an earphone is connected, the portable audio device continues emitting sounds unless switching to second audio data (SA4-SA8). When no earphone is connected (SA2;NO), the portable audio device transmits connection information to indicate accordingly (SA8) to an audio player, and generates and transmits emit sound data (SA9-SA12) to let the audio player emit sounds based on the first audio data. When the audio player receives connection information indicating that no earphone is connected, the audio player emits sounds according to the emit sound data received thereafter.

Description

  The present invention relates to sound emission control of a wirelessly connected audio device.

  There is a technology for automatically switching the output destination of an audio signal in accordance with the presence or absence of an external connection having a sound emission function. In Patent Document 1, when the wireless receiver is mounted on the device mounting portion of the speaker device, the wireless receiver causes the speaker device to output sound, and when the wireless receiver is not mounted on the device mounting portion, wireless reception is performed. Discloses that the device outputs sound from headphones connected to the device.

JP 2008-172551 A

In the technique disclosed in Patent Document 1, a wireless receiver executes control related to sound emission, and a speaker device and headphones emit sound according to the control. On the other hand, if the sound emission control suitable for the user's use is performed under a configuration in which each audio device constituting the audio system executes control related to sound emission, it is expected that the convenience of the user is improved.
In contrast, an object of the present invention is to provide a mechanism that emits sound according to the state of a plurality of audio devices in an audio system.

  In order to achieve the above object, an audio device of the present invention is an audio device that wirelessly communicates with an external device that transmits and receives audio data, and an audio receiving unit that receives audio data transmitted by the external device; The acquisition means for acquiring the audio data in the own apparatus, the detection means for detecting whether or not the detachable sound emitting device is connected to the own apparatus, and the connection of the sound emitting device is detected by the detecting means A sound emission control unit that causes the sound emission device to emit sound based on the audio data received by the audio reception unit or the audio data acquired by the acquisition unit; and the sound emission based on the acquired audio data When it is detected that the sound emitting device is disconnected by the detecting means while the device is emitting sound. Characterized by comprising an audio transmission means for transmitting the audio data obtained by the obtaining unit to the external device addressed.

  In a preferred aspect of the present invention, the sound emission control means stops sound emission based on the audio data in the sound emission device during a period in which the audio transmission means transmits the acquired audio data, and the audio transmission The means does not transmit the acquired audio data during a period in which the sound emitting device emits sound.

  The audio device of the present invention is an audio device that transmits and receives audio data and wirelessly communicates with an external device to which a detachable sound emitting device is connected, and whether the sound emitting device is connected to the external device. Connection information receiving means for receiving connection information indicating whether or not, audio receiving means for receiving audio data transmitted by the external apparatus, acquisition means for acquiring audio data in the own apparatus, and Based on the audio data received by the audio receiving means or the audio data acquired by the acquiring means, sound emission control means for controlling the sound to be emitted by the own apparatus, and releasing by the own apparatus based on the acquired audio data The connection information received by the connection information receiving means when making a sound indicates that the connection has started If, characterized in that the audio data acquired by the acquisition unit including an audio transmission means for transmitting to said external device addressed.

  In a preferred aspect of the present invention, the sound emission control means stops sound emission based on the audio data in its own device during a period in which the audio transmission means transmits the acquired audio data, and the audio transmission means The acquired audio data is not transmitted during a period in which sound is emitted by the own device.

  The audio system of the present invention includes a first audio device and a second audio device that perform wireless communication with each other and each transmit and receive audio data. The first audio device is transmitted by the second audio device. First receiving means for receiving the recorded audio data, first acquiring means for acquiring the audio data in the own apparatus, and detecting means for detecting whether a detachable sound emitting device is connected to the own apparatus And connection information transmission means for transmitting connection information indicating the detection result of the detection means to the second audio device, and when the connection of the sound emitting device is detected by the detection means, the first audio reception means First sound to be emitted from the sound emitting device based on the received audio data or the audio data acquired by the first acquisition means. When the sound emitting device emits sound based on the audio data acquired by the sound control means and the first acquisition means, the detection means detects that the connection of the sound emitting device has been disconnected. A first audio transmission unit configured to transmit the audio data acquired by the first acquisition unit to the second audio device, wherein the second audio device transmits the connection information transmitted by the connection information transmission unit. Connection information receiving means for receiving the audio data, second audio receiving means for receiving the audio data transmitted by the first audio transmitting means, second acquisition means for acquiring the audio data in its own device, and the second audio Based on the audio data received by the receiving means or the audio data obtained by the second obtaining means, the sound is emitted by the own device. The connection information received by the connection information receiving means when the own apparatus emits sound based on the audio data acquired by the second acquisition means and the second sound emission control means for controlling the connection is started. The second audio transmission means for transmitting the audio data acquired by the second acquisition means to the first audio device.

  According to the present invention, sound can be emitted according to the states of a plurality of audio devices in an audio system.

The figure which shows schematic structure of an audio system Block diagram showing hardware configuration of wireless communication terminal Block diagram showing the hardware configuration of the audio player The figure explaining the outline of sound emission control of an audio system Functional block diagram showing the functional configuration of the audio system Flowchart showing the flow of processing in a portable audio device Flowchart showing the flow of processing in a portable audio device Flow chart showing the flow of processing in the audio player Flow chart showing the flow of processing in the audio player

[Embodiment]
FIG. 1 is a diagram showing a schematic configuration of the audio system 1.
The audio system 1 includes a portable audio device 10 and an audio player 20. The portable audio device 10 is an example of the first audio device of the present invention, and here is a smartphone. The audio player 20 is an example of a second audio device of the present invention. Each of the portable audio device 10 and the audio player 20 has a musical sound reproduction function, and executes control for emitting sound based on audio data through wireless communication with each other. A wireless communication path is established between the portable audio device 10 and the audio player 20, and information can be exchanged with each other via the wireless communication path. Each of the portable audio device 10 and the audio player 20 packetizes the audio data and transmits it to the counterpart device via a wireless communication path. The packetized audio data is audio data that is used when the counterpart device emits sound, and is hereinafter referred to as “sound emission data”. The sound emission data of the present embodiment may be information including the content of the sound emission instruction.
In the present embodiment, the portable audio device 10 and the audio player 20 are described as one, but a plurality of each may exist. The external device of the present invention corresponds to either the audio player 20 viewed from the portable audio device 10 or the portable audio device 10 viewed from the audio player 20.

FIG. 2 is a block diagram illustrating a hardware configuration of the portable audio device 10. As shown in FIG. 2, the portable audio device 10 includes a control unit 11, a UI (User Interface) unit 12, a wireless communication unit 13, a voice input / output unit 14, a connection terminal 15, and a storage unit 16. Prepare.
The control unit 11 is a control unit including an arithmetic device including a CPU (Central Processing Unit) and a memory. The arithmetic device controls the operation of the portable audio device 10 by executing a program stored in the memory or the storage unit 16. The UI unit 12 includes a touch panel, and has both an operation unit that receives an operation from a user and a function as a display unit that notifies information by an image. The wireless communication unit 13 includes a wireless communication circuit and an antenna, and is an interface for wireless connection to the audio player 20. The wireless communication unit 13 transmits and receives information by wireless communication under the control of the control unit 11. The voice input / output unit 14 includes a microphone that collects received voice and the like and a speaker that emits transmitted voice and the like, and realizes functions related to voice input / output in the portable audio device 10. The connection terminal 15 is a terminal to which the earphone 100 that is a sound emitting device that can be attached to and detached from the portable audio device 10 is connected. The connection terminal 15 is, for example, a jack into which the earphone 100 is plugged. When the tone signal reproduced by the control unit 11 is supplied, the earphone 100 emits sound according to the tone signal.
The sound emitting device connected to the portable audio device 10 is the earphone 100 in this embodiment, but may be a headphone or a speaker other than this. In short, the sound emitting device of the present invention may be any device that emits sound according to a musical sound signal supplied from the portable audio device 10 via the connection terminal 15.

The storage unit 16 includes, for example, an EEPROM (Electronically Erasable and Programmable ROM), and stores various programs used by the control unit 11 and first audio data 161. The first audio data 161 is an example of the first audio data of the present invention, and is data in which sounds generated by playing musical instruments or singing a plurality of music pieces are defined in time series. The first audio data 161 represents, for example, digital data quantized after an analog audio signal is sampled according to a specific sampling frequency.
Note that the data structure of the first audio data 161 is not limited to a specific structure in the present invention, and the first audio data 161 may be a base on which a musical sound signal is generated.

FIG. 3 is a block diagram showing a hardware configuration of the audio player 20. As shown in FIG. 3, the audio player 20 includes a control unit 21, a disk drive 22, a wireless communication unit 23, an operation unit 24, a display unit 25, and a speaker 26.
The control unit 21 is a control unit including an arithmetic device including a CPU and a memory. The arithmetic device controls the operation of the audio player 20 by executing a program stored in the memory. The disk drive 22 reads information recorded on an optical disk such as a CD (Compact Disk) and outputs the read information to the control unit 11. In this embodiment, the audio data recorded on the optical disk set in the disk drive 22 is second audio data 221. The second audio data 221 is an example of the second audio data of the present invention, and is data in which sounds generated by playing musical instruments or singing a plurality of music pieces are defined in time series. The structure of the second audio data 221 is not limited to a specific structure in the present invention, and the second audio data 221 only needs to be a basis for generating a musical sound signal.

The wireless communication unit 23 is an interface for wireless connection to the portable audio device 10. The wireless communication unit 23 transmits and receives information through wireless communication under the control of the control unit 21. The operation unit 24 includes an operation switch that receives a user operation, and outputs an operation signal to the control unit 21 according to the received operation. The display unit 25 is a display unit having a display area on the front surface of the audio player 20, and is a fluorescent display tube, for example. The speaker 26 is a stereo speaker including L and R speakers, and is a sound emitting unit that emits sound according to a musical sound signal reproduced by the control unit 21.
In the audio system 1 having the above configuration, sound emission control is realized according to the rules described in the table shown in FIG.

FIG. 4 is a diagram for explaining the outline of sound emission control in the audio system 1.
As shown in FIG. 4, sound emission control in the audio system 1 is determined by the conditions indicated by “earphone” and “sound source”. “Earphone” is a condition indicating whether or not the earphone 100 is connected to the portable audio device 10. “Sound source” is a condition indicating which sound source of the portable audio device 10 or the audio player 20 is used. Specifically, in the present embodiment, the case where the portable audio device 10 is used as a sound source is a case where sound is emitted based on the first audio data 161, and the case where the audio player 20 is used as a sound source. This is a case where sound is emitted based on the second audio data 221. The sound source of the present embodiment is in the portable audio device 10 or the audio player 20, and the sound emission data exchanged via the wireless communication path between the portable audio device 10 and the audio player 20 is the first. Data generated when the audio data 161 or the second audio data 221 is transmitted and received wirelessly is shown.

As shown in FIG. 4, when the sound source is the portable audio device 10, when the earphone 100 is connected to the portable audio device 10, sound is emitted from the earphone of the portable audio device 10 and the earphone 100 is connected. If not, sound is emitted from the speaker of the audio player 20. Further, when the sound source is the audio player 20, when the earphone 100 is connected to the portable audio device 10, sound is emitted from the earphone of the portable audio device 10, and when the earphone 100 is not connected, the audio player 20 Sound is emitted from the speaker. As described above, the portable audio device 10 and the audio player 20 operate according to one of these four operation modes in accordance with the conditions indicated by “earphone” and “sound source”.
When the sound source device and the sound emitting device are different, the sound source device generates sound emission data and transmits it to the device that emits sound, and the sound emitting device emits sound based on the received sound emission data. To do. Specifically, the mobile audio device 10 emits sound based on the second audio data 221 in accordance with the sound emission data received from the audio player 20. Also, the audio player 20 emits sound based on the first audio data 161 according to the sound emission data received from the portable audio device 10.

FIG. 5 is a functional block diagram showing a functional configuration of the audio system 1. In the portable audio device 10, the control unit 11 executes the program, so that the portable audio device 10 includes a first acquisition unit 101, a connection detection unit 102, a connection information transmission unit 103, a first audio reception unit 104, Functions corresponding to the first sound emission control unit 105 and the first audio transmission unit 106 are realized.
The first acquisition unit 101 is an example of a first acquisition unit (acquisition unit) of the present invention, and acquires audio data in the portable audio device 10. Here, the 1st acquisition part 101 reads the 1st audio data 161 from the memory | storage part 16, and acquires this.

The connection detection unit 102 is an example of a detection unit of the present invention, and detects whether or not the earphone 100 is connected to the connection terminal 15. The connection detection unit 102 monitors the impedance, for example, and detects whether the earphone 100 is connected.
The connection information transmission unit 103 is an example of the connection information transmission unit of the present invention, and transmits connection information indicating whether or not the earphone 100 is connected to the connection terminal 15 according to the detection result of the connection detection unit 102. .

  The first audio receiving unit 104 is an example of a first audio receiving unit (audio receiving unit) according to the present invention. The first audio receiving unit 104 is a broadcast transmitted by the audio player 20 (more specifically, a second audio transmitting unit 205 described later). Receive sound data.

  The first sound emission control unit 105 is an example of the first sound emission control means (sound emission control means) of the present invention, and controls the sound emission in the portable audio device 10. When the connection detection unit 102 detects that the earphone 100 is connected to the connection terminal 15, the first sound emission control unit 105 receives the sound emission data received by the first audio reception unit 104 or the first acquisition unit. The earphone 100 emits sound based on the first audio data 161 acquired by the terminal 101. At this time, the first sound emission control unit 105 generates a musical sound signal using any one of the audio data, and outputs the generated musical sound signal to the earphone 100 via the connection terminal 15.

The first audio transmission unit 106 is an example of the first audio transmission unit (audio transmission unit) of the present invention, and the first sound emission control unit 105 causes the earphone 100 to emit sound based on the first audio data 161. When the connection detection unit 102 detects that the earphone 100 is disconnected, the sound emission data generated based on the first audio data 161 is transmitted to the audio player 20. In other words, the first audio transmission unit 106 transmits the first audio data 161 in the form of sound emission data when the earphone 100 is changed from the state connected to the portable audio device 10 to the state not connected.
Among the functions in the portable audio device 10, the first acquisition unit 101, the connection detection unit 102, and the first sound emission control unit 105 are realized by the control unit 11, and the connection information transmission unit 103 and the first audio reception unit 104. The first audio transmission unit 106 is realized by the cooperation of the control unit 11 and the wireless communication unit 13.

In the audio player 20, when the control unit 21 executes the program, the portable audio device 10 includes the second acquisition unit 201, the connection information reception unit 202, the second audio reception unit 203, and the second sound emission control unit. A function corresponding to 204 and the second audio transmission unit 205 is realized.
The second acquisition unit 201 is an example of a second acquisition unit (acquisition unit) of the present invention, and acquires audio data in the audio player 20. Here, the second acquisition unit 201 reads out the second audio data 221 to be emitted by the audio player 20 from the optical disk set in the disk drive 22 and acquires it.

The connection information receiving unit 202 is an example of the connection information receiving unit of the present invention, and receives the connection information transmitted by the connection information transmitting unit 103.
The second audio receiving unit 203 is an example of the second audio receiving unit (audio receiving unit) of the present invention, and receives sound emission data transmitted by the first audio transmitting unit 106.

  The second sound emission control unit 204 is an example of the second sound emission control means (sound emission control means) of the present invention, and controls the sound emission in the audio player 20. The second sound emission control unit 204 emits sound based on the sound emission data received by the second audio reception unit 203 or the second audio data 221 acquired by the second acquisition unit 201. At this time, the second sound emission control unit 204 generates a musical sound signal using any one of the audio data, and outputs the generated musical sound signal to the speaker 26.

The second audio transmission unit 205 is an example of the second audio transmission unit (audio transmission unit) of the present invention, and is received by the connection information reception unit 202 when sound is emitted from the audio player 20 based on the second audio data 221. If the connection information thus obtained indicates that the connection of the earphone 100 has been started, the sound emission data generated based on the second audio data 221 is transmitted to the portable audio device 10. In other words, the second audio transmission unit 205 transmits the second audio data 221 in the form of sound emission data when the earphone 100 changes from a state where it is not connected to the portable audio device 10 to a state where it is connected.
Among the functions in the audio player 20, the second acquisition unit 201 and the second sound emission control unit 204 are realized by the control unit 21, and the connection information reception unit 202, the second audio reception unit 203, and the second audio transmission unit. 205 is realized by the cooperation of the control unit 21 and the wireless communication unit 23.

In the audio system 1 as described above, sound emission data is sent from one device to one direction of the other device depending on whether the earphone 100 is connected and the location of the sound source, and other information ( For example, the connection information transmission request) can be exchanged in both directions.
Next, the operation of the audio system 1 will be described. Hereinafter, operations of the portable audio device 10 and the audio player 20 will be described separately.

(1) Operation of Portable Audio Device 10 FIGS. 6 and 7 are flowcharts showing the flow of processing in the portable audio device 10.
When the user operates the UI unit 12 to start sound emission based on the first audio data 161 (step SA1), the control unit 11 of the portable audio device 10 determines whether the earphone 100 is connected to the connection terminal 15 or not. Is determined (step SA2). The control unit 11 detects whether or not the plug of the earphone 100 is connected to the connection terminal 15 and determines the connection state of the earphone 100.

Next, when determining that the earphone 100 is connected to the connection terminal 15 (step SA2; YES), the control unit 11 emits sound using the earphone 100 based on the first audio data 161 (step SA3). . Next, control unit 11 determines whether or not the connection state of earphone 100 has changed (step SA4). Here, the control unit 11 determines whether or not the connection between the connection terminal 15 and the earphone 100 is disconnected. When the control unit 11 determines that the connection state of the earphone 100 has not changed (step SA4; NO), the control unit 11 determines whether or not the sound is changed from the first audio data 161 to the second audio data 221 (step S4). Step SA5). For example, the control unit 11 sets “YES” in the process of step SA5 when starting sound emission based on the second audio data 221 in its own device, such as when transmission of sound emission data from the audio player 20 is started. Judgment will be made.
When it is determined “NO” in the process of step SA5, the control unit 11 determines whether or not the sound emission based on the first audio data 161 is ended (step SA6). Here, when continuing this sound emission, the control part 11 judges it as "NO" by the process of step SA6, and returns to the process of step SA3. On the other hand, when the control unit 11 is instructed to end the sound emission by the user's operation of the UI unit 12 or finishes sound emission according to the first audio data 161, the control unit 11 ends the sound emission. Judgment is made (step SA6; YES), and all the processes are terminated.

  Control unit 11 emits sound with earphone 100 in accordance with the process in step SA3, and determines that the connection state of earphone 100 has changed in the process in step SA4 (step SA4; YES), that is, portable audio device 10 and earphone. If it is determined that the connection with 100 is disconnected, sound emission from earphone 100 is stopped (step SA7). And the control part 11 returns to the process of step SA2. Here, the control unit 11 determines that the earphone 100 is not connected to the portable audio device 10 (step SA2; NO).

If the control unit 11 determines “NO” in the process of step SA2, the wireless communication unit 13 transmits connection information indicating whether or not the connection terminal 15 is connected to the earphone 100 (step SA8). Here, the control unit 11 transmits connection information indicating that the earphone 100 is not connected to the connection terminal 15. Next, the control unit 11 generates sound emission data to cause the audio player 20 to emit sound based on the first audio data 161, and transmits the sound emission data to the audio player 20 by the wireless communication unit 13 (step SA9). . Specifically, the control unit 11 generates and transmits sound emission data obtained by packetizing the first audio data 161.
When the control unit 11 detects that the connection of the earphone 100 to the portable audio device 10 is disconnected, the control unit 11 stops the control for causing the earphone 100 to emit sound, such as generation of a musical sound signal based on the first audio data 161. To do. As a result, it is assumed that the user desires to listen without using the earphone 100 when the earphone 100 is removed while the portable audio device 10 emits sound, and the sound emitted from the control unit 11 is recorded as an audio player. 20 can be taken over.

Next, control unit 11 determines whether or not the connection state of earphone 100 has changed (step SA10). Here, the control unit 11 determines whether or not the connection between the connection terminal 15 and the earphone 100 is started. When determining that the connection state of the earphone 100 has changed during sound emission based on the first audio data 161 (step SA10; YES), the control unit 11 stops generating and transmitting sound emission data (step SA13). The process returns to step SA2. In this case, the control unit 11 determines “YES” in the process of step SA2.
On the other hand, when the control unit 11 determines that the connection state of the earphone 100 has not changed in the process of step SA10 (step SA10; NO), the control unit 11 changes the first audio data 161 to the second audio data 221 and emits the sound. (Step SA11). This determination is made based on the same conditions as those in step SA5.
When determining “NO” in the process of step SA11, the control unit 11 determines whether or not the sound emission based on the first audio data 161 is to be ended (step SA12). Here, when continuing the sound emission, the control unit 11 determines “NO” in the process of step SA12, and returns to the process of step SA9. On the other hand, the control part 11 complete | finishes all the processes, when it is judged that sound emission is complete | finished (step SA12; YES).
According to the above operation procedure, the control unit 11 does not generate and transmit sound emission data when performing control for causing the earphone 100 to emit sound. That is, it is equivalent to the portable audio device 10 shifting to the mute process while the power is on. In addition, when the start of the connection is detected after the connection of the earphone 100 is disconnected, the control unit 11 resumes the control for emitting sound from the earphone 100. The reason for this is that the fact that the earphone 100 is connected to the portable audio device 10 is presumed that the user is going to listen to a musical sound using the portable audio device 10.

  If the control unit 11 determines that the first audio data 161 is changed to the second audio data 221 in the process of step SA5 or SA11 (step SA5; YES or step SA11; YES), the process flow shown in FIG. Will be executed. Next, the operation of the portable audio device 10 will be described with reference to FIG.

  If the control unit 11 determines “YES” in the process of step SA5 or SA11, the wireless communication unit 13 receives sound emission data from the audio player 20, and based on the second sound data 221 according to the received sound emission data. Sound emission is started (step SA21). Next, the control unit 11 determines whether or not the earphone 100 is connected to the connection terminal 15 (step SA22). When the control unit 11 determines that the earphone 100 is connected (step SA22; YES), the connection information indicating the connection state of the earphone 100 at that time (that is, being connected), and the sound emission The data transmission request is transmitted to the audio player 20 by the wireless communication unit 13 (step SA23). When the sound communication data transmitted from the audio player 20 in response to the transmission request is received by the wireless communication unit 13, the control unit 11 uses the sound output data and uses the sound output data based on the second audio data 221. The sound is emitted at 100 (step SA24).

Next, control unit 11 determines whether or not the connection state of earphone 100 has changed (step SA25). If the control unit 11 determines that the connection state of the earphone 100 has not changed (step SA25; NO), the control unit 11 determines whether or not the sound is changed from the second audio data 221 to the first audio data 161 (step S25). Step SA26). For example, when the sound emission based on the first audio data 161 is instructed by the user via the UI unit 12, the control unit 11 determines “YES” in the process of step SA26 when starting the sound emission. Will do.
When it is determined “NO” in the process of step SA26, the control unit 11 determines whether or not the sound emission based on the second audio data 221 is to be ended (step SA27). Here, when continuing this sound emission, the control unit 11 determines “NO” in the process of step SA27, and returns to the process of step SA23. On the other hand, when it is determined that the sound emission is to be terminated (step SA27; YES), the control unit 11 terminates all the processes.

  When the control unit 11 determines that the connection state of the earphone 100 has changed in the process of step SA24 (step SA25; YES), that is, the portable audio device, while the earphone 100 is emitting sound according to the process of step SA23. If it is determined that the connection between the device 10 and the earphone 100 is disconnected, sound emission from the earphone 100 is stopped (step SA28). And the control part 11 returns to the process of step SA22. Here, the control unit 11 determines that the earphone 100 is not connected to the portable audio device 10 (step SA22; NO).

When determining “NO” in the process of step SA22, control unit 11 determines whether or not the connection state of earphone 100 has changed (step SA29). When the control unit 11 determines that the connection state of the earphone 100 has not changed (step SA29; NO), the control unit 11 determines whether or not the sound is changed from the second audio data 221 to the first audio data 161 (step S29). Step SA30). This determination is made based on the same conditions as those in step SA26.
When determining “NO” in the process of step SA30, the control unit 11 determines whether or not the sound emission based on the second audio data 221 is to be ended (step SA31). Here, when continuing this sound emission, the control unit 11 determines “NO” in the process of step SA31, and returns to the process of step SA29. On the other hand, if the control part 11 judges that sound emission is complete | finished (step SA31; YES), all the processes will be complete | finished.
In addition, if the control part 11 judges that the connection state of the earphone has changed by the process of step SA29 (step SA29; YES), it will return to the process of step SA22. If the control unit 11 determines that the second audio data 221 is changed to the first audio data 161 in the process of step SA26 or SA30 (step SA26; YES or step SA30; YES), the process flow shown in FIG. Will be executed. Accordingly, for example, when the earphone 100 is connected to the portable audio device 10, the control unit 11 can return sound emission based on the first audio data 161 to the portable audio device 10.

(2) Operation of Audio Player 20 FIGS. 8 and 9 are flowcharts showing the flow of processing in the audio player 20.
When the user operates the operation unit 24 to start sound emission based on the second audio data 221 (step SB1), the control unit 21 of the audio player 20 starts connection information transmitted from the portable audio device 10 (step SA8). (Or transmitted at SA23) is received by the wireless communication unit 23, and it is determined whether or not the earphone 100 is connected to the portable audio device 10 (step SB2). When the control unit 21 determines that the earphone 100 is connected (step SB2; YES), the control unit 21 generates sound emission data using the second audio data 221 and transmits the sound emission data to the portable audio device 10 by the wireless communication unit 23 ( Step SB3). Here, the control unit 21 generates and transmits sound emission data obtained by packetizing the second audio data 221.
As a result, it is assumed that the earphone 100 is connected to the portable audio device 10 while the audio player 20 is emitting sound, and that the user wants to listen to the sound of the audio player 20 using the earphone 100. Can pass this sound emission to the portable audio device 10.

Next, the control unit 21 receives the connection information transmitted from the portable audio device 10 (transmitted in step SA8 or SA23) by the wireless communication unit 23, and whether or not the connection state of the earphone 100 has changed. Is determined (step SB4). When the control unit 21 determines that the connection state of the earphone 100 has not changed (step SB4; NO), the control unit 21 determines whether the sound is changed from the second audio data 221 to the first audio data 161 (step SB4; NO). Step SB5). For example, the control unit 21 performs step SB5 when starting sound emission based on the first audio data 161 on its own device, such as when transmission of sound emission data is started from the portable audio device 10 (for example, a user instruction). It is determined that the process is “YES”.
When it is determined “NO” in the process of step SB5, the control unit 21 determines whether or not to end the sound emission based on the second audio data 221 (step SB6). Here, when continuing this sound emission, the control unit 21 determines “NO” in the process of Step SB6 and returns to the process of Step SB3. On the other hand, the control unit 21 determines that the sound emission is to be terminated when it is instructed to end the sound emission by the user's operation of the operation unit 24 or when all the contents have been emitted according to the second audio data 221. (Step SB6; YES), all the processes are terminated.

  When the control unit 21 determines that the connection state of the earphone 100 has changed in the process of step SB4 (step SB4; YES), that is, the sound output according to the process of step SB3, If it is determined that the connection with the earphone 100 has been disconnected, the generation and transmission of sound emission data are stopped (step SB7). Then, the control unit 21 returns to the process of step SB2, but here determines that the earphone 100 is not connected to the portable audio device 10 (step SB2; NO).

  Next, when determining “NO” in the process of step SB2, the control unit 21 causes the speaker 26 to emit sound based on the second audio data 221 (step SB8). Next, the control unit 21 determines whether or not the connection state of the earphone 100 has changed based on the connection information transmitted from the portable audio device 10 (step SB9). If the control unit 21 determines that the connection state of the earphone 100 has changed during sound emission based on the second audio data 221 (step SB9; YES), the control unit 21 stops sound emission from the speaker 26 (step SB12). The process returns to SB2.

When determining that the connection state of the earphone 100 has not changed in the process of step SB9 (step SB9; NO), the control unit 21 changes from the second audio data 221 to the first audio data 161 and emits sound. Is determined (step SB10). This determination is made based on the same conditions as those in step SB5.
When it is determined “NO” in the process of step SB10, the control unit 21 determines whether or not the sound emission based on the second audio data 221 is ended (step SB11). Here, when continuing this sound emission, the control unit 21 determines “NO” in the process of Step SB11 and returns to the process of Step SB9. On the other hand, when the control unit 21 determines to end the sound emission (step SB11; YES), the entire process is ended.
According to the above operation procedure, the control unit 21 does not generate and transmit sound emission data when performing control for causing the speaker 26 to emit sound. That is, it is equivalent to the audio player 20 shifting to the mute process while the power is on. In addition, when the start of the connection is detected after the connection of the earphone 100 is disconnected, the control unit 21 resumes the control for emitting sound from the earphone 100. The reason for this is that the fact that the earphone 100 is connected to the portable audio device 10 is presumed that the user wants to listen to the musical sound using the portable audio device 10.

  When the control unit 21 determines that the second audio data 221 is changed to the first audio data 161 in the process of step SB5 or SB10 (step SB5; YES or step SB10; YES), the process flow shown in FIG. Will be executed. Next, the operation of the audio player 20 will be described with reference to FIG.

When the control unit 21 determines “YES” in the process of step SB5 or SB10, the wireless communication unit 23 receives the sound emission data from the portable audio device 10, and the received sound emission data (the one transmitted in step SA9). ), Sound emission based on the first audio data 161 is started (step SB21). Next, the control unit 21 determines whether the earphone 100 is connected to the portable audio device 10 based on the connection information received from the portable audio device 10 by the wireless communication unit 23 (step SB22). When the control unit 21 determines that the earphone 100 is connected (step SB22; YES), the control unit 21 determines whether the connection state of the earphone 100 has changed (step SB23). When the control unit 21 determines that the connection state of the earphone 100 has not changed (step SB23; NO), the control unit 21 determines whether or not the sound is changed from the first audio data 161 to the second audio data 221 (step S23). Step SB24).
When it is determined “NO” in the process of step SB24, the control unit 21 determines whether or not the sound emission based on the first audio data 161 is ended (step SB25). Here, when continuing this sound emission, the control unit 21 determines “NO” in the process of Step SB25, and returns to the process of Step SB23. On the other hand, when the control unit 21 determines to end the sound emission (step SB25; YES), the entire process is ended.

  If the control unit 21 determines that the earphone 100 is not connected in the process of step SB22 while the speaker 26 is emitting sound according to the process of step SB21 (step SB22; NO), the control unit 21 receives the sound emission data. At the same time, the sound emission based on the first audio data 161 is continued (step SB26). Then, control unit 21 determines whether or not the connection state of earphone 100 has changed (step SB27). When the control unit 21 determines that the connection state of the earphone 100 has not changed (step SB27; NO), the control unit 21 determines whether or not to change the sound from the first audio data 161 to the second audio data 221 and emit the sound. (Step SB28).

When it is determined “NO” in the process of step SB28, the control unit 21 determines whether or not to end the sound emission based on the first audio data 161 (step SA29). Here, when continuing this sound emission, the control unit 21 determines “NO” in the process of Step SB30, and returns to the process of Step SB26. On the other hand, if the control part 21 judges that sound emission is complete | finished (step SB29; YES), all the processes will be complete | finished.
In addition, if the control part 21 judges that the connection state of the earphone 100 has changed by the process of step SB27 (step SB27; YES), the sound emission from the speaker 26 is stopped (step SB30), and the process of step SB2 is performed. Return. Further, when the control unit 21 determines in the processing of step SB24 or SB28 that the first audio data 161 is changed to sound emission based on the second audio data 221 (step SB24; YES or step SB28; YES), FIG. The processing flow shown will be executed.
Accordingly, for example, when the earphone 100 is removed from the portable audio device 10, the control unit 21 can return sound emission based on the second audio data 221 to the audio player 20.

  According to the embodiment described above, the audio system 1 comprehensively determines whether the earphone 100 is connected to the portable audio device 10 and the location of the sound source, and emits sound by the own device based on the audio data. The content of control for causing the other device to emit sound is determined. Thus, in the audio system 1, the content of sound emission control that is considered preferable for the user is determined from the state of the device without any operation by the user, and suitable for the user's use according to the state of each audio device. Sound emission control can be realized.

[Modification]
The present invention can be implemented in a form different from the above-described embodiment. Further, the following modifications may be combined as appropriate.
(Modification 1)
In the above-described embodiment, the first sound emission control unit 105 detects that the connection has been disconnected by the connection detection unit 102, and generates and transmits sound emission data based on the first audio data 161. When the control for causing the earphone 100 to emit sound is stopped and then the connection is detected by the connection detection unit 102, the control is resumed. Instead, the first sound emission control unit 105 causes the earphone 100 to emit sound even when the connection detection unit 102 detects that the connection has been disconnected and generates and transmits sound emission data. This control may be continued. In this case, it is preferable that the first sound emission control unit 105 reduces the power consumption of the portable audio device 10 required for sound emission, such as lowering the sound emission volume. Further, when the second sound emission control unit 204 determines that the connection of the earphone 100 is started based on the connection information, the second sound emission control unit 204 stops the control for causing the earphone 100 to emit sound based on the second audio data 221. The sound emission from the own device may be continued. In this case, it is preferable that the second sound emission control unit 204 reduces the power consumption of the audio player 20 required for sound emission, such as lowering the sound emission volume.

(Modification 2)
As a condition for the portable audio device 10 and the audio player 20 to generate and transmit sound emission data, a condition that the counterpart device is in a predetermined operation mode (transmission / reception mode) may be further included. In the above-described embodiment, when the device on the transmission side satisfies the conditions for generating and transmitting sound emission data, the counterpart device has set the transmission / reception mode following that, but the device is not in the transmission / reception mode. Means that sound emission control based on sound emission data is not performed.

(Modification 3)
In the embodiment described above, the audio player 20 may turn off the power of its own device when the portable audio device 10 changes from the state in which the earphone 100 is not connected to the connected state. When the earphone 100 is newly connected to the portable audio device 10, there is a high possibility that the user will listen to music using the portable audio device 10 from now on, so there is a possibility that no sound emission based on the second audio data 221 is expected. Because it is expensive. Thereby, the power consumption of the audio player 20 can be reduced.

  The audio data in the portable audio device 10 and the audio player 20 is not limited to that in the above embodiment. For example, the audio data in the portable audio device 10 and the audio player 20 may be read from a storage medium such as a hard disk device or an optical disk built in the device itself or externally connected, or by so-called line input. It may be input. In short, the audio data in the portable audio device 10 and the audio player 20 may be audio data other than sound emission data, and may be audio data captured in each device by some method.

(Modification 4)
Although the earphone 100 of the above-described embodiment is connected to the connection terminal 15 by wired connection, the sound emitting device may be connected to the portable audio device 10 by wireless connection. In this case, “connection” means that a wireless communication path is established between the portable audio device 10 and the sound emitting device, and sound can be emitted by the sound emitting device in accordance with sound emission control by the portable audio device 10. State. In this case, for example, the connection state between the portable audio device 10 and the sound emitting device is changed also by turning on / off the power of the sound emitting device.
As described above, the “connection” of the present invention can be said to be a state in which the sound emitting device can emit sound according to the control of the audio device.

(Modification 5)
In the audio device of the present invention, the portable audio device 10 may be a terminal other than a smartphone, and for example, a sound emitting device such as an earphone such as a mobile phone, a mobile computer, or a portable music player can be connected. Various devices capable of wireless communication can be provided. The audio player 20 may be a personal computer, a stereo, a television, or the like, for example. In short, the audio apparatus of the present invention includes a device necessary for wireless communication, and can generate and transmit the sound emission data and emit sound according to the sound emission data received from the other party. Good.

(Modification 6)
The programs executed by the control unit 11 of the portable audio device 10 and the control unit 21 of the audio player 20 in the above-described embodiment are a magnetic recording medium (magnetic tape, magnetic disk (HDD, FD), etc.), an optical recording medium ( It can be provided in a state of being recorded on a computer-readable recording medium such as an optical disk (CD, DVD, etc.), a magneto-optical recording medium, or a semiconductor memory. It is also possible to download via a network such as the Internet. Moreover, the function implement | achieved when the control part 11 or the control part 21 runs a program may be implement | achieved by 1 or several software, and may be implement | achieved by 1 or several hardware.

DESCRIPTION OF SYMBOLS 1 ... Audio system, 10 ... Portable audio equipment, 100 ... Earphone, 101 ... 1st acquisition part, 102 ... Connection detection part, 103 ... Connection information transmission part, 104 ... 1st audio reception part, 105 ... 1st sound emission control 106, 1st audio transmission part, 11 ... Control part, 12 ... UI part, 13 ... Wireless communication part, 14 ... Audio | voice input / output part, 15 ... Connection terminal, 16 ... Memory | storage part, 20 ... Audio player, 201 ... 2nd acquisition part 202 ... connection information receiving part 203 ... 2nd audio receiving part 204 ... 2nd sound emission control part 205 ... 2nd audio transmission part 21 ... control part 22 ... disk drive 23 ... wireless Communication unit 24 ... operation unit 25 ... display unit 26 26 speaker

Claims (5)

An audio device that wirelessly communicates with an external device that transmits and receives audio data,
Audio receiving means for receiving audio data transmitted by the external device;
Obtaining means for obtaining audio data in the device;
Detecting means for detecting whether a detachable sound emitting device is connected to the device;
Sound emission control for causing the sound emitting device to emit sound based on the audio data received by the audio receiving unit or the audio data acquired by the acquiring unit when the detection unit detects the connection of the sound emitting device Means,
The audio data acquired by the acquisition means when the detection means detects that the connection of the sound emission equipment is disconnected while the sound emission equipment is emitting sound based on the acquired audio data An audio transmission means for transmitting the message to the external device. The sound emission control means stops sound emission based on the audio data in the sound emission device in a period in which the audio transmission means transmits the acquired audio data,
The audio apparatus according to claim 1, wherein the audio transmitting unit does not transmit the acquired audio data during a period in which the sound emitting device emits sound. An audio device that transmits and receives audio data and wirelessly communicates with an external device to which a removable sound emitting device is connected,
Connection information receiving means for receiving connection information indicating whether or not the sound emitting device is connected to the external device from the external device;
Audio receiving means for receiving audio data transmitted by the external device;
Obtaining means for obtaining audio data in the device;
Sound emission control means for controlling the sound to be emitted by the own device based on the audio data received by the audio receiving means or the audio data obtained by the obtaining means;
When the connection information received by the connection information receiving means indicates that the connection has been started when sound is emitted from the own apparatus based on the acquired audio data, the audio data acquired by the acquisition means is An audio device comprising: audio transmitting means for transmitting to the device. The sound emission control means stops sound emission based on the audio data in its own device in a period in which the audio transmission means transmits the acquired audio data,
The audio apparatus according to claim 3, wherein the audio transmission unit does not transmit the acquired audio data during a period in which sound is emitted by the own apparatus. A first audio device and a second audio device that perform wireless communication with each other and transmit and receive audio data, respectively,
The first audio device includes:
First audio receiving means for receiving audio data transmitted by the second audio device;
First acquisition means for acquiring audio data in the device;
Detecting means for detecting whether a detachable sound emitting device is connected to the device;
Connection information transmission means for transmitting connection information indicating a detection result of the detection means to the second audio device;
When connection of the sound emitting device is detected by the detecting means, sound is emitted to the sound emitting device based on the audio data received by the first audio receiving means or the audio data acquired by the first acquiring means. First sound emission control means for causing,
When it is detected that the connection of the sound emitting device is disconnected by the detecting means while the sound emitting device is emitting sound based on the audio data acquired by the first acquiring means, the first First audio transmission means for transmitting the audio data acquired by the acquisition means to the second audio device;
The second audio device includes:
Connection information receiving means for receiving connection information transmitted by the connection information transmitting means;
Second audio receiving means for receiving the audio data transmitted by the first audio transmitting means;
Second acquisition means for acquiring audio data in the device;
Based on the audio data received by the second audio receiving means or the audio data acquired by the second acquisition means, second sound emission control means for controlling the sound to be emitted by the own device;
When the connection information received by the connection information receiving means indicates that the connection has started when sound is emitted by the own apparatus based on the audio data acquired by the second acquisition means, the second acquisition means An audio system comprising: second audio transmission means for transmitting the acquired audio data to the first audio device.

Images