JP3931028B2 - Audio system and volume control method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an audio system in which a host device and an audio device are connected via an interface such as a USB, and in particular, an audio system and a volume that can appropriately adjust the volume of music sound output from the audio device. It relates to the adjustment method.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, electronic devices such as printers and modems that are connected to a host device such as a personal computer are known. Such an electronic device has an interface such as RS232C or Centronics, for example, is connected to a host device via a predetermined cable, and operates according to control from the host device.
Recently, USB (Universal Serial Bus) or the like has attracted attention as an interface standard adopted for a host device. This USB is supported by a general OS (Operating System) installed in the host device, and can be connected while the power of the electronic device is turned on. It features plug-and-play that can be set automatically.
[0003]
This USB supports "Isochronous transfer" assuming electronic devices classified as multimedia devices. For example, audio data is transmitted in real time from a host device to an audio device (electronic device). can do. At this time, since the audio data sent by the USB is digital data, it is difficult to be affected by noise or the like, and it is possible to output a high-quality music sound by the audio device.
[0004]
FIG. 3 shows a schematic diagram of an audio system using such a USB interface. As shown in the figure, the audio system is configured by connecting a host device 101 and an audio device 102 via a USB cable 103.
The host device 101 includes a predetermined personal computer and transmits audio data and the like to the audio device 102 via the USB cable 103 in accordance with an audio application (software) to be executed.
On the other hand, the audio device 102 is an electronic device having a USB interface, and sequentially receives audio data and the like sent from the host device 101, converts the received audio data into an audio signal, and then plays music sound through a speaker or the like. Output as.
[0005]
The operation of such a conventional audio system will be described below with reference to FIG. FIG. 4 is a flowchart for explaining music data reproduction processing executed in the host device 101 or the like.
First, the host device 101 activates a predetermined audio application in accordance with an instruction from a user or the like (step S101).
In the audio application, the host device 101 displays a list of music data to be reproduced on a display or the like, and acquires an instruction to reproduce arbitrary music data via a keyboard, a mouse, or the like (step S102).
[0006]
The host device 101 reproduces the music data according to the currently set volume value, and supplies the audio data obtained by the reproduction to the audio device 102 via the USB cable 103 (step S103).
On the other hand, when the audio device 102 receives the audio data sent from the host device 101, the audio device 102 converts the received audio data into an audio signal, and then outputs it as a music sound via a speaker or the like (step S104). At this time, the audio device 102 outputs the music sound according to the volume value currently set for itself.
[0007]
As described above, the audio system supplies the audio data obtained by reproducing the music data on the host device 101 to the audio device 102 via the USB cable 103, and the audio device 102 generates high-quality music sound. Can be output.
[0008]
[Problems to be solved by the invention]
However, in the conventional audio system as described above, if the volume values set in the host device 101 and the audio device 102 are not appropriate, a loud music sound that is not intended by the user is output from the audio device 102. There was a case.
Specifically, when the volume value of the host device 101 is set to be larger than a certain value and the volume value of the audio device 102 is also set to be larger than the certain value, the audio device 102 has a large volume of music. Sound is output. That is, the host device 101 generates audio data with a large volume, and the generated audio data is supplied to the audio device 102. Since the audio device 102 further increases the volume, as a result, a loud music sound is output from the speaker of the audio device 102 or the like.
[0009]
As described above, in the conventional audio system, even if the volume settings of the host device 101 and the audio device 102 are inappropriate, the audio data is generated according to the unconditionally set volume and the music sound is output. For this reason, there is a problem that the music sound is output at a large volume that is not intended by the user.
[0010]
The present invention has been made in view of the above circumstances, and an object thereof is to provide an audio system and a volume adjustment method capable of appropriately adjusting the volume of music sound output from an audio device.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, an audio system according to the first aspect of the present invention provides:
An audio system in which a host device and an audio device are connected via a predetermined interface, and audio data generated according to the volume value of the host device is output as music sound according to the volume value of the audio device. There,
First acquisition means for acquiring a volume value set in the host device;
Second acquisition means for acquiring a volume value set in the audio device;
In accordance with the respective volume values acquired by the first and second acquisition means, at least the volume value set in the audio device is changed to a predetermined initial value in the audio device as a sufficiently small volume. Change means,
It is characterized by providing.
[0013]
In order to achieve the above object, an audio system according to a second aspect of the present invention provides:
An audio system in which a host device and an audio device are connected via a predetermined interface, and audio data generated according to the volume value of the host device is output as music sound according to the volume value of the audio device. There,
The host device
First acquisition means for acquiring a volume value set to self;
Second acquisition means for acquiring a volume value sent from the audio device;
Instruction means for instructing the audio device to change the volume value in accordance with the respective volume values acquired by the first and second acquisition means,
Audio equipment
A transmission means for acquiring the volume value set for itself and transmitting it to the host device;
In response to an instruction from the instruction means, a change means for changing the volume value set for itself to a predetermined initial value as a sufficiently small volume ,
It is characterized by that.
[0015]
In order to achieve the above object, an audio system according to a third aspect of the present invention provides:
An audio system in which a host device and an audio device are connected via a predetermined interface, and audio data generated according to the volume value of the host device is output as music sound according to the volume value of the audio device. There,
The host device
First acquisition means for acquiring a volume value set to self;
Request means for requesting transmission of the volume value set in the audio device;
Volume value receiving means for receiving a volume value sent from an audio device in response to a request by the request means;
An instruction to instruct the audio device to change the volume value when the volume value acquired by the first acquisition unit and the volume value received by the volume value receiving unit exceed a predetermined reference value Means,
Generating means for generating audio data in accordance with the volume value set to self;
Audio data transmitting means for transmitting the audio data generated by the generating means to an audio device,
Audio equipment
In response to a request from the requesting means, a second acquisition means for acquiring a volume value set for the self;
Volume value transmission means for transmitting the volume value acquired by the second acquisition means to a host device;
In response to an instruction by the instruction means, a changing means for changing the volume value set for itself to a predetermined initial value as a sufficiently small volume ;
Conversion means for converting the audio data sent by the audio data transmission means into an audio signal;
A music sound output means for outputting the audio signal converted by the conversion means as a music sound according to a volume value set for itself;
It is characterized by that.
[0017]
In order to achieve the above object, a volume control method according to a fourth aspect of the present invention is:
In an audio system in which a host device and an audio device are connected via a predetermined interface, and audio data generated according to the volume value at the host device is output as music sound according to the volume value at the audio device . A volume control method,
A first acquisition step of acquiring a volume value set in the host device;
A second acquisition step of acquiring a volume value set in the audio device;
In accordance with the respective volume values acquired in the first and second acquisition steps, at least the volume value set in the audio device is changed to a predetermined initial value in the audio device as a sufficiently small volume. A value change step;
It is characterized by providing.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
An audio system according to an embodiment of the present invention will be described below with reference to the drawings.
[0020]
FIG. 1 is a block diagram showing an example of the configuration of an audio system applied to the embodiment of the present invention. As shown in the figure, the audio system is configured by connecting a host device 1 and an audio device 2 via a USB cable 3.
[0021]
The host device 1 includes a predetermined personal computer and the like, and includes a memory 11, a hard disk 12, a keyboard / mouse 13, a CPU 14, a graphic controller 15, a display 16, a USB terminal 17, and a USB controller 18. Consists of.
[0022]
The memory 11 includes a ROM (Read Only Memory), a RAM (Random Access Memory), and the like, and stores, for example, a volume value set by the user via the keyboard / mouse 13.
[0023]
The hard disk 12 is composed of a magnetic disk unit or the like, and stores basic software such as an OS (Operating System) and application software including audio data output processing described later.
The hard disk 12 stores a plurality of music files (music data) of a predetermined format to be reproduced.
[0024]
The keyboard / mouse 13 is an input device operated by the user, and supplies instruction information to the CPU 14 according to the user's operation.
[0025]
A CPU (Central Processing Unit) 14 is a processing device for controlling the entire host device 1.
Specifically, the CPU 14 reproduces arbitrary music data stored in the hard disk 12 and generates audio data according to the volume value (set volume value) stored in the memory 11. The CPU 14 transmits the audio data to the audio device 2 via the USB cable 3 by supplying the generated audio data to the USB controller 18.
Further, the CPU 14 supplies request data for requesting the transmission of the volume value to the audio apparatus 2 via the USB controller 18 in order to acquire the volume value currently set in the audio apparatus 2, and the audio apparatus 2 receives the volume value sent from the USB controller 18.
Further, the CPU 14 supplies instruction data for instructing the change of the volume value to the audio apparatus 2 via the USB controller 18 in order to adjust the volume value of the audio apparatus 2.
[0026]
The graphic controller 15 is controlled by the CPU 14 and generates display data serving as a basis for characters and images to be displayed on the display 16. The graphic controller 15 supplies the generated display data to the display 16.
[0027]
The display 16 includes a CRT (Cathode Ray Tube), an LCD (Liquid Crystal Display), or the like, and displays characters, images, and the like according to display data supplied from the graphic controller 15.
[0028]
The USB terminal 17 includes a connector having a predetermined shape and is detachably joined to one end of the USB cable 3.
[0029]
The USB controller 18 is a controller that controls communication in accordance with the USB standard, and is controlled by the CPU 14 to supply the generated audio data (such as an isochronous transfer frame) to the audio device 2 via the USB cable 3 or the like.
[0030]
On the other hand, the audio device 2 includes a USB terminal 21, a microcomputer 22, a DAC 23, an electronic volume 24, an amplifier circuit 25, and a speaker 26.
[0031]
The USB terminal 21 includes a connector having a predetermined shape and is detachably joined to one end of the USB cable 3.
[0032]
The microcomputer 22 includes a CPU, a ROM, a RAM, and the like, and controls the entire audio device 2.
That is, the microcomputer 22 receives the audio data and the like supplied from the host device 1 via the USB cable 3 and supplies the received audio data to the DAC 23.
Further, the microcomputer 22 acquires the volume value currently set in the electronic volume 24 in accordance with the request data supplied from the host device 1 via the USB cable 3, and sends information indicating the volume value to the USB cable 3. To the host device 1.
Furthermore, the microcomputer 22 changes the setting of the volume value of the electronic volume 24 in accordance with the instruction data supplied from the host device 1 via the USB cable 3.
[0033]
The DAC (digital / analog converter) 23 converts the audio data (digital data) sent from the microcomputer 22 into an analog signal, and supplies the converted audio signal (analog signal) to the electronic volume 24.
[0034]
The electronic volume 24 is controlled by the microcomputer 22 and amplifies or attenuates the audio signal supplied from the DAC 23 according to the set volume value. The electronic volume 24 supplies the amplified audio signal to the amplifier circuit 25.
[0035]
The amplifier circuit 25 appropriately amplifies the audio signal supplied from the DAC 23 via the electronic volume 24 and supplies the amplified audio signal to the speaker 26.
[0036]
The speaker 26 emits predetermined sound (music sound, etc.) according to the audio signal supplied via the amplifier circuit 25.
[0037]
The operation of the audio system according to the embodiment of the present invention will be described below with reference to FIG.
FIG. 2 is a flowchart for explaining audio data output processing executed by the CPU 14 in the host device 1 and music sound output processing executed by the microcomputer 22 in the audio device 2.
The audio data output process and the music sound output process are started after a predetermined audio application is started in the host device 1 after the host device 1 and the audio device 2 are connected via the USB cable 3.
[0038]
First, the CPU 14 of the host device 1 acquires an instruction to reproduce arbitrary music data (step S11). For example, the CPU 14 displays a list of music data to be reproduced on the display 16 via the graphic controller 15 and acquires a reproduction instruction for arbitrary music data input by the user via the keyboard / mouse 13. .
[0039]
The CPU 14 acquires the current volume value set for itself (host device 1) (step S12). That is, the CPU 14 acquires a volume value stored in the memory 11.
[0040]
CPU14 discriminate | determines whether the acquired volume value is a value previously determined to be the maximum (step S13).
[0041]
If the CPU 14 determines that the volume value is not the maximum, the process proceeds to step S21 described later. On the other hand, when determining that the volume value is the maximum, the CPU 14 requests the audio device 2 to transmit the current volume value (step S14). That is, the CPU 14 supplies request data for requesting transmission of the volume value to the audio device 2 via the USB controller 18.
[0042]
On the other hand, the microcomputer 22 of the audio device 2 determines whether or not the request data has been received (step S31). If it is determined that the request data has been received, the microcomputer 22 is set to the current (audio device 2). A volume value is acquired (step S32). That is, the microcomputer 22 acquires the volume value currently set in the electronic volume 24 from the electronic volume 24.
If it is determined in step S31 that the request data has not been received, the microcomputer 22 advances the process to step S36 described later.
[0043]
When the volume value is acquired, the microcomputer 22 transmits information indicating the volume value to the host device 1 via the USB cable 3 (step S33).
[0044]
When the volume value is sent from the audio device 2, the CPU 14 acquires the transmitted volume value (step S15), and determines whether or not the acquired volume value of the audio device 2 is equal to or greater than a certain value (step S16). ).
[0045]
If the CPU 14 determines that the volume value is not equal to or greater than a certain value, the process proceeds to step S21 described later. On the other hand, if it is determined that the volume value is greater than or equal to a certain value, the CPU 14 displays a predetermined warning message and a confirmation dialog on the display 16 via the graphic controller 15 (step S17). For example, the CPU 14 displays on the display 16 a warning message such as “The volume of the sound output from the audio device is too large” and a confirmation dialog such as “Do you want to output it as it is? <Yes, No>”. To do.
[0046]
The CPU 14 determines whether or not a confirmation input has been made (step S18). That is, the CPU 14 determines whether or not it is confirmed via the keyboard / mouse 13 that the output is performed as it is in the confirmation dialog displayed on the display 16.
[0047]
If the CPU 14 determines that a confirmation input has been made, the CPU 14 proceeds to step S21 to be described later. On the other hand, when determining that the confirmation input has not been made, the CPU 14 determines whether or not a predetermined time has elapsed since the confirmation dialog was displayed (step S19).
[0048]
When the CPU 14 determines that the certain time has not elapsed, the CPU 14 returns the process to step S18 and again determines whether or not there is a confirmation input. On the other hand, when determining that the predetermined time has elapsed, the CPU 14 instructs the audio device 2 to change the volume value to the initial value (step S20). That is, the CPU 14 supplies instruction data for instructing the change of the volume value to the audio device 2 via the USB controller 18.
[0049]
When the instruction data is sent from the host device 1, the microcomputer 22 determines that the instruction data has been received (step S34), and controls the electronic volume 24 to change the volume value to the initial value (step S35). If it is determined in step S34 that no instruction data has been received, the microcomputer 22 advances the process to step S36 described later.
[0050]
After transmitting the instruction data to the audio device 2, the CPU 14 reproduces the music data at the volume value currently set for itself, and supplies the audio data obtained by the reproduction to the audio device 2 (step S 21).
[0051]
When audio data is sent from the host device 1, the microcomputer 22 determines that the audio data has been received (step S 36), converts the received audio data into an audio signal, and then uses the speaker 26 or the like as music sound. Output (step S37). At this time, the microcomputer 22 outputs music sound according to the volume value currently set in the electronic volume 24.
If it is determined in step S36 that no audio data has been received, the microcomputer 22 returns the process to step S31 and repeatedly executes the processes in steps S31 to S36 described above.
[0052]
In this way, the host device 1 determines whether or not the set volume value of itself and the set volume value of the audio device 2 are appropriate. Even if the audio data is supplied to the audio device 2 as it is, the audio device 2 It is confirmed that a loud music sound is not output at.
At this time, if it is determined that both set volume values are inappropriate and a loud music sound is output, the host device 1 displays a confirmation dialog on the display 16 for confirming whether or not to output the sound as it is. If the user's confirmation is not obtained, the host device 1 should change the volume value to the initial value (sufficiently low volume) in order not to output a loud music sound that is not intended by the user. To the audio device 2.
As a result, the volume of the music sound output from the audio device can be adjusted appropriately.
[0053]
In the above embodiment, the volume value on the audio device 2 side is changed so as not to output a loud music sound, but the volume value on the host device 1 side may be changed. Further, the volume values of both the host device 1 and the audio device 2 may be changed.
[0054]
In addition, the host device 1 side acquires its own set volume value and the set volume value of the audio device 2, and changes the volume value of the audio device 2, etc. Conversely, the audio device 2 side sets its own set volume value. Alternatively, the set volume value of the host device 1 may be acquired to change its own volume value or the like.
[0055]
Further, in the above embodiment, the audio system in which the host device 1 and the audio device 2 are connected via the USB interface has been described. However, the interface for connecting the host device 1 and the audio device 2 is not limited to the USB, and is arbitrary. It is. For example, an interface such as IEEE1394 may be used.
[0056]
【The invention's effect】
As described above, according to the present invention, the volume of the music sound output from the audio device can be appropriately adjusted.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an example of the configuration of an audio system according to an embodiment of the present invention.
FIG. 2 is a flowchart for explaining audio data output processing and music sound output processing according to the embodiment of the present invention;
FIG. 3 is a schematic diagram showing an example of the configuration of a conventional audio system.
FIG. 4 is a flowchart for explaining music data reproduction processing executed by a host device or the like in a conventional audio system.
[Explanation of symbols]
1 Host Device 2 Audio Device 3 USB Cable 11 Memory 12 Hard Disk 13 Keyboard / Mouse 14 CPU
15 Graphic controller 16 Display 17 USB terminal 18 USB controller 21 USB terminal 22 Microcomputer 23 DAC
24 Electronic volume 25 Amplifier circuit 26 Speaker

Claims (4)

An audio system in which a host device and an audio device are connected via a predetermined interface, and audio data generated according to the volume value of the host device is output as music sound according to the volume value of the audio device. There,
First acquisition means for acquiring a volume value set in the host device;
Second acquisition means for acquiring a volume value set in the audio device;
In accordance with the respective volume values acquired by the first and second acquisition means, at least the volume value set in the audio device is changed to a predetermined initial value in the audio device as a sufficiently small volume. Change means,
An audio system comprising: An audio system in which a host device and an audio device are connected via a predetermined interface, and audio data generated according to the volume value of the host device is output as music sound according to the volume value of the audio device. There,
The host device
First acquisition means for acquiring a volume value set to self;
Second acquisition means for acquiring a volume value sent from the audio device;
Instruction means for instructing the audio device to change the volume value in accordance with the respective volume values acquired by the first and second acquisition means,
Audio equipment
A transmission means for acquiring the volume value set for itself and transmitting it to the host device;
In response to an instruction from the instruction means, a change means for changing the volume value set for itself to a predetermined initial value as a sufficiently small volume ,
An audio system characterized by that. An audio system in which a host device and an audio device are connected via a predetermined interface, and audio data generated according to the volume value of the host device is output as music sound according to the volume value of the audio device. There,
The host device
First acquisition means for acquiring a volume value set to self;
Request means for requesting transmission of the volume value set in the audio device;
Volume value receiving means for receiving a volume value sent from an audio device in response to a request by the request means;
An instruction to instruct the audio device to change the volume value when the volume value acquired by the first acquisition unit and the volume value received by the volume value receiving unit exceed a predetermined reference value Means,
Generating means for generating audio data in accordance with the volume value set to self;
Audio data transmitting means for transmitting the audio data generated by the generating means to an audio device,
Audio equipment
In response to a request from the requesting means, a second acquisition means for acquiring a volume value set for the self;
Volume value transmission means for transmitting the volume value acquired by the second acquisition means to a host device;
In response to an instruction by the instruction means, a changing means for changing the volume value set for itself to a predetermined initial value as a sufficiently small volume ;
Conversion means for converting the audio data sent by the audio data transmission means into an audio signal;
A music sound output means for outputting the audio signal converted by the conversion means as a music sound according to a volume value set for itself;
An audio system characterized by that. In an audio system in which a host device and an audio device are connected via a predetermined interface, and audio data generated according to the volume value at the host device is output as music sound according to the volume value at the audio device . A volume control method,
A first acquisition step of acquiring a volume value set in the host device;
A second acquisition step of acquiring a volume value set in the audio device;
In accordance with the respective volume values acquired in the first and second acquisition steps, at least the volume value set in the audio device is changed to a predetermined initial value in the audio device as a sufficiently small volume. A value change step;
A volume adjustment method comprising:

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